Refine
Is part of the Bibliography
- yes (816)
Year of publication
Document Type
- Doctoral Thesis (413)
- Journal article (387)
- Conference Proceeding (4)
- Preprint (4)
- Master Thesis (3)
- Review (3)
- Habilitation (1)
- Other (1)
Keywords
- Molekularstrahlepitaxie (32)
- Topologischer Isolator (32)
- Hadron-Hadron scattering (experiments) (31)
- Quantenpunkt (30)
- Kernspintomografie (28)
- Parton Distributions (25)
- Photoelektronenspektroskopie (23)
- MRI (20)
- Organischer Halbleiter (20)
- NMR-Tomographie (19)
- ATLAS detector (18)
- NMR-Bildgebung (18)
- Quecksilbertellurid (18)
- physics (18)
- Halbleiter (17)
- ARPES (16)
- Decay (15)
- Drei-Fünf-Halbleiter (15)
- proton-proton collision (15)
- Extension (14)
- Galliumarsenid (14)
- Optischer Resonator (14)
- magnetic resonance imaging (14)
- Halbleiterlaser (13)
- Heterostruktur (13)
- HgTe (13)
- Higgs boson (13)
- Nanostruktur (13)
- quantum dot (13)
- LHC (12)
- Optische Spektroskopie (12)
- Organische Solarzelle (12)
- Rastertunnelmikroskopie (12)
- Spintronik (12)
- Ultrakurzer Lichtimpuls (12)
- ++ (11)
- Dünne Schicht (11)
- Festkörperphysik (11)
- High energy physics (11)
- Physics (11)
- Spektroskopie (11)
- Squark (11)
- molecular beam epitaxy (11)
- topological insulator (11)
- topological insulators (11)
- Zwei-Sechs-Halbleiter (10)
- Elektronischer Transport (9)
- Oberflächenphysik (9)
- Optoelektronik (9)
- Physik (9)
- Raman-Spektroskopie (9)
- Zinkselenid (9)
- Cross-Section (8)
- Einzelphotonenemission (8)
- Elektronenstruktur (8)
- Femtosekundenbereich (8)
- Fotovoltaik (8)
- Grenzfläche (8)
- Organisches Molekül (8)
- Parton distributions (8)
- Rastertunnelmikroskop (8)
- Röntgen-Photoelektronenspektroskopie (8)
- Semimagnetischer Halbleiter (8)
- electronic properties and materials (8)
- photoelectron spectroscopy (8)
- quantum dots (8)
- semiconductor (8)
- Bildgebendes Verfahren (7)
- Elektronenspin (7)
- Exziton-Polariton (7)
- Kernspintomographie (7)
- Kondo-Effekt (7)
- LEED (7)
- Laser (7)
- Lunge (7)
- MBE (7)
- Mass (7)
- Quantenwell (7)
- Rekombination (7)
- Röntgenspektroskopie (7)
- Spin-Bahn-Wechselwirkung (7)
- Spintronics (7)
- Supersymmetry (7)
- spintronics (7)
- Beyond Standard Model (6)
- Computersimulation (6)
- DFB-Laser (6)
- Exziton (6)
- GaAs (6)
- Gluino Production (6)
- Hadron colliders (6)
- Halbleiteroberfläche (6)
- MRT (6)
- Magnetische Kernresonanz (6)
- Magnetismus (6)
- Magnetowiderstand (6)
- Mikroresonator (6)
- Monte-Carlo (6)
- Nanodraht (6)
- Nanopartikel (6)
- Optik (6)
- Perowskit (6)
- Pulsformung (6)
- XPS (6)
- electronic structure (6)
- organic semiconductors (6)
- semiconductor lasers (6)
- semiconductors (6)
- two-dimensional materials (6)
- Übergangsmetalloxide (6)
- ATLAS (5)
- ATLAS <Teilchendetektor> (5)
- Cadmiumselenid (5)
- Diffusion (5)
- Dotierung (5)
- Dünnschichtsolarzelle (5)
- Elektronenkorrelation (5)
- Elektronenspinresonanz (5)
- Energy (5)
- Halbleiterschicht (5)
- Herz (5)
- Higgs bosons (5)
- MASS (5)
- Magnetische Resonanz (5)
- Magnetischer Halbleiter (5)
- Manganarsenide (5)
- Manganverbindungen (5)
- Molekül (5)
- NMR (5)
- NMR-Spektroskopie (5)
- Niederdimensionaler Halbleiter (5)
- Oberfläche (5)
- Parallele Bildgebung (5)
- Photoemission (5)
- Photolumineszenz (5)
- Photolumineszenzspektroskopie (5)
- Photovoltaik (5)
- Quanten-Hall-Effekt (5)
- Rashba-Effekt (5)
- Röntgenbeugung (5)
- Silber (5)
- Simulation (5)
- Spin (5)
- Supraleitung (5)
- Top physics (5)
- Top quark (5)
- XMCD (5)
- atherosclerosis (5)
- energy (5)
- magnetic properties and materials (5)
- microscopy (5)
- mouse (5)
- nanoparticles (5)
- pulse shaping (5)
- recombination (5)
- semiconductor laser (5)
- solar cells (5)
- spectroscopy (5)
- spin (5)
- Adsorbat (4)
- Aerogel (4)
- Ag(111) (4)
- Aluminiumarsenid (4)
- Biophysik (4)
- Boson (4)
- Breaking (4)
- Diffusionsverfahren <Halbleitertechnologie> (4)
- Distributions (4)
- Elektronengas (4)
- Elektronentransport (4)
- Festkörperoberfläche (4)
- Galliumarsenid-Bauelement (4)
- Galliumarsenidlaser (4)
- Gasionisationsdetektor (4)
- Hierarchy (4)
- Ladungstransport (4)
- Magnetoelektronik (4)
- Magnetresonanztomographie (4)
- Mikroskopie (4)
- NEXAFS (4)
- Nahfeldoptik (4)
- Nanometerbereich (4)
- Nickelverbindungen (4)
- Oberflächenzustand (4)
- PTCDA (4)
- Perfusion (4)
- Perovskite (4)
- Perylendianhydrid (4)
- Photochemische Reaktion (4)
- Photostrom (4)
- Plasmon (4)
- Quantendraht (4)
- Quantenkaskadenlaser (4)
- RIXS (4)
- Semiconductor (4)
- Siliciumcarbid (4)
- Sol-Gel-Verfahren (4)
- Solarzelle (4)
- Spin flip (4)
- Strahlungstransport (4)
- Symmetry (4)
- Topologie (4)
- Wide-gap-Halbleiter (4)
- Wärmeleitfähigkeit (4)
- XRD (4)
- Z boson (4)
- emission (4)
- imaging (4)
- mice (4)
- microcavity (4)
- n-Halbleiter (4)
- optical spectroscopy (4)
- organic solar cells (4)
- plasmonics (4)
- quantum optics (4)
- radial (4)
- scanning tunneling microscopy (4)
- spin injection (4)
- strong coupling (4)
- superconductivity (4)
- AFM (3)
- Abstimmbarer Laser (3)
- Adaptivregelung (3)
- Adsorption (3)
- AlGaAs (3)
- Arteriosklerose (3)
- Bosons (3)
- CdSe (3)
- CdTe (3)
- CePt5 (3)
- Compressed Sensing (3)
- Computertomografie (3)
- Coulomb-Blockade (3)
- Cu(111) (3)
- DFB laser (3)
- Diindenoperylen (3)
- Einzelmolekülmikroskopie (3)
- Electroweak interaction (3)
- Elektronenspektroskopie (3)
- Elektronische Eigenschaft (3)
- Events (3)
- Feldeffekttransistor (3)
- Ferromagnetic Semiconductors (3)
- Ferromagnetische Schicht (3)
- Fourier-Spektroskopie (3)
- Frequenzvervielfachung (3)
- Gitterbaufehler (3)
- Graphen (3)
- Hadron Colliders (3)
- Halbleiterphysik (3)
- Herstellung (3)
- Herzmuskel (3)
- Heterostruktur-Bauelement (3)
- Higgs (3)
- Hochauflösendes Verfahren (3)
- Indiumarsenid (3)
- Indiumphosphid (3)
- Kohlenstoff (3)
- Kohärente Kontrolle (3)
- Konfokale Mikroskopie (3)
- Kontrastmittel (3)
- Kraftmikroskopie (3)
- Large Hadron Collider (3)
- MOLLI (3)
- Magnetic Anisotropy (3)
- Magnetic resonance imaging (3)
- Magnetischer Röntgenzirkulardichroismus (3)
- Mangan (3)
- Manganate (3)
- Manganselenide (3)
- Mangansilicide (3)
- Maus (3)
- Measuring Masses (3)
- Memristor (3)
- Mikrokavität (3)
- Mikrooptik (3)
- Mikrostruktur (3)
- Model (3)
- Models (3)
- Molecular Beam Epitaxy (3)
- Molekülphysik (3)
- Nanoelektronik (3)
- Nanooptik (3)
- Niederdimensionales Elektronengas (3)
- OLED (3)
- Optical spectroscopy (3)
- Optimierung (3)
- Optische Eigenschaft (3)
- Organic Semiconductors (3)
- Pair Production (3)
- Parallel Imaging (3)
- Particle data analysis (3)
- Photoluminescence (3)
- Photonische Kristalle (3)
- Phthalocyanin (3)
- Physikalische Eigenschaft (3)
- Physikunterricht (3)
- Polymere (3)
- Proton-Proton Collisions (3)
- Quantenkontrolle (3)
- Quantum dots (3)
- Rashba effect (3)
- Rastertunnelspektroskopie (3)
- Regelung (3)
- Rekonstruktion (3)
- Relaxation (3)
- Relaxationszeit (3)
- Relaxometry (3)
- Resonanz-Tunneleffekt (3)
- Röntgenabsorptionsspektroskopie (3)
- Röntgendiffraktometrie (3)
- Röntgenmikroskopie (3)
- STM (3)
- Schwere-Fermionen-System (3)
- Search (3)
- Selbstorganisation (3)
- Spin-Gitter-Relaxation (3)
- Supersymmetric models (3)
- Supraleiter (3)
- Tissue Engineering (3)
- Transistor (3)
- Transportprozess (3)
- Transportspektroskopie (3)
- Tumor (3)
- W boson (3)
- Weak (3)
- Wärmeübertragung (3)
- Würzburg / Sonderforschungsbereich II-VI-Halbleiter (3)
- Zweidimensionales Material (3)
- absorption (3)
- applied physics (3)
- charge transfer (3)
- computed tomography (3)
- condensed matter physics (3)
- decay (3)
- density functional theory (3)
- diffusion (3)
- dynamics (3)
- exciton (3)
- in vivo imaging (3)
- infrared spectroscopy (3)
- magnetic resonance (3)
- magnetism (3)
- nanostructures (3)
- nuclear magnetic resonance (3)
- optoelectronics (3)
- organic molecule (3)
- organic semiconductor (3)
- parallel imaging (3)
- perfusion (3)
- photoemission (3)
- photoluminescence (3)
- photonic devices (3)
- pulse wave velocity (3)
- quantum control (3)
- quantum physics (3)
- quantum well (3)
- quantum wells (3)
- qubits (3)
- resonant tunneling diode (3)
- single photon emission (3)
- spin-orbit coupling (3)
- states (3)
- surface science (3)
- surfaces, interfaces and thin films (3)
- thermal conductivity (3)
- (Ga (2)
- 3D-Bildgebung (2)
- 4D flow (2)
- Absorptionsspektroskopie (2)
- Algorithm (2)
- Aminosäuren (2)
- Antimonide (2)
- Antimonverbindungen (2)
- Aorta (2)
- Atherosclerosis (2)
- Axion (2)
- Ballistischer Transport (2)
- Bi2Se3 (2)
- Bilderzeugung (2)
- Bildgebung (2)
- Bismuthene (2)
- Bismutselenide (2)
- Bismutverbindungen (2)
- Bose-Einstein-Kondensation (2)
- C60 (2)
- CAIPIRINHA (2)
- CSI (2)
- CT (2)
- Cadmiumsulfid (2)
- Cadmiumtellurid (2)
- Calciumphosphat (2)
- Calciumphosphate (2)
- Cerlegierung (2)
- Coherent control (2)
- Computertomographie (2)
- Constraints (2)
- Cross-section (2)
- CuPc (2)
- Deformation (2)
- Dimension 2 (2)
- Dispersion (2)
- Dreidimensionale Rekonstruktion (2)
- Dreiecksgitter (2)
- Durchblutung (2)
- Dynamik (2)
- EW (2)
- Edelmetall (2)
- Einmodenlaser (2)
- Einzelphotonenquelle (2)
- Electromagnon (2)
- Elektromagnon (2)
- Elektron-Phonon-Wechselwirkung (2)
- Elektronenflüssigkeit (2)
- Elektronenstrahllithographie (2)
- Elektronenzustand (2)
- Energiespeicher (2)
- Epitaxieschicht (2)
- Epitaxy (2)
- European Organization for Nuclear Research. ATLAS Collaboration (2)
- Excitons (2)
- Experimental physics (2)
- Extensions of gauge sector (2)
- FIR-Spektroskopie (2)
- FT-IR-Spektroskopie (2)
- Feldstärkemessung (2)
- Femtosekundenlaser (2)
- Fernsehmaske (2)
- Ferromagnete (2)
- Ferromagnetikum (2)
- Ferromagnetische Halbleiter (2)
- Ferromagnetismus (2)
- Flash-Speicher (2)
- Fluor-19 (2)
- Fluoreszenz (2)
- Fragmentation (2)
- Fullerene (2)
- Funktionswerkstoff (2)
- GRAPPA (2)
- GaMnAs (2)
- Galliumantimonid (2)
- Galliumnitrid (2)
- Gas (2)
- Germanium (2)
- Glas (2)
- Gluino production (2)
- Gold (2)
- Graphene (2)
- H-1-NMR spectroscopy (2)
- HEMT (2)
- HRXRD (2)
- Halbleiter-Supraleiter-Kontakt (2)
- Halbleitergrenzflächen (2)
- Halbmetall (2)
- Herzfunktionsdiagnostik (2)
- Herzinfarkt (2)
- Heusler (2)
- Heuslersche Legierung (2)
- Hochfrequenz (2)
- Hochleistungslaser (2)
- Hochtemperatur (2)
- Hypothetical gauge bosons (2)
- II-VI semiconductor (2)
- II-VI-Halbleiter (2)
- Imaging techniques (2)
- Impact (2)
- Impulslaser (2)
- InP (2)
- Indiumnitrid (2)
- Inelastische Röntgenstreuung (2)
- Inflammation (2)
- Interbandkaskadenlaser (2)
- Interference microscopy (2)
- Isomerizierung (2)
- Jets (2)
- Kardiovaskuläres System (2)
- Kernspinresonanz (2)
- Kohlenwasserstoffe (2)
- Kohärenz (2)
- Kristallfeld (2)
- LEEM (2)
- Ladungstransfer (2)
- Laserdiode (2)
- Lasertechnologie (2)
- Licht-Materie-Wechselwirkung (2)
- Linienbreite (2)
- Lung (2)
- Lungenfunktion (2)
- Luttinger liquid (2)
- Luttinger-Flüssigkeit (2)
- MR (2)
- Magnetic Resonance Imaging (2)
- Magnetic Topological Insulator (2)
- Magnetic resonance (2)
- Magnetische Anisotropie (2)
- Magnetische Eigenschaft (2)
- Magnetit (2)
- Magnetoelektrischer Effekt (2)
- Magnetotransport (2)
- Magnetpartikelbildgebung (2)
- Magnetresonanz (2)
- Magnetresonanztomografie (2)
- Magnon (2)
- Mehrschichtsystem (2)
- Messprozess (2)
- Metall-Isolator-Phasenumwandlung (2)
- Metalloberfläche (2)
- Mice (2)
- Micromegas (2)
- Mikrosäulenresonator (2)
- Mn)As (2)
- Modellbasierte Rekonstruktion (2)
- Modellierung (2)
- Molecular beam epitaxy (2)
- Molekulardynamik (2)
- Monoschicht (2)
- Mott-Isolator (2)
- Multiferroics (2)
- Multiferroikum (2)
- NMR-Mikroskopie (2)
- NTCDA (2)
- Nanostrukturiertes Material (2)
- Nanowire (2)
- Natrium (2)
- Neutrino (2)
- NiMnSb (2)
- Nichtlineare Spektroskopie (2)
- Niederdimensionales System (2)
- ODMR-Spektroskopie (2)
- Oberflächenplasmonresonanz (2)
- Organische Halbleiter (2)
- Organischer Feldeffekttransistor (2)
- Oxygen (2)
- Pair production (2)
- Paralleler Prozess (2)
- Patron Distributions (2)
- Pflanzen (2)
- Photoelectron Spectroscopy (2)
- Photonischer Kristall (2)
- Plants (2)
- Plus plus (2)
- Polariton (2)
- Polariton Lasing (2)
- Poröser Stoff (2)
- Program (2)
- Pulmonary imaging (2)
- Pump-Probe-Technik (2)
- QAHE (2)
- QCD (2)
- Quantenkommunikation (2)
- Quantenoptik (2)
- Quantenpunkte (2)
- Quantenpunktlaser (2)
- Quantentrog (2)
- Quantum anomalous Hall effect (2)
- Quark & gluon jets (2)
- RHEED (2)
- Raman (2)
- Raman spectroscopy (2)
- Rapidity (2)
- Rasterelektronenmikroskopie (2)
- Relativistic heavy-ion collisions (2)
- Relaxometrie (2)
- Resonanz-Tunneldiode (2)
- Riesenmagnetowiderstand (2)
- Röntgen-Kleinwinkelstreuung (2)
- Röntgenabsorption (2)
- Röntgenemission (2)
- Röntgenmikroskop (2)
- Röntgenstrahlung (2)
- Röntgenstreuung (2)
- Röntgenstrukturanalyse (2)
- SPA-LEED (2)
- Scanning Tunneling Spectroscopy (2)
- Scanning microscopy (2)
- Scattering (2)
- Semiconductors (2)
- Silicon carbide (2)
- Siliziumcarbid (2)
- Solarzellen (2)
- Spectromicroscopy (2)
- Spin defect (2)
- Spin-Spin-Relaxation (2)
- Spindynamik (2)
- Spinell (2)
- Spininjektion (2)
- Starke Kopplung (2)
- Steady-State Sequences (2)
- Steady-State-Sequenzen (2)
- Störstellen (2)
- Superisolierung (2)
- Surface plasmons (2)
- Surface states (2)
- Symmetry-breaking (2)
- T1 (2)
- T1-Quantifizierung (2)
- T1rho (2)
- T1ρ (2)
- T2 (2)
- Technische Optik (2)
- Thermoelektrizität (2)
- Thermometrie (2)
- Thin Films (2)
- Tieftemperatur (2)
- Titan-Saphir-Laser (2)
- Tomografie (2)
- Top-Quark (2)
- Topologische Supraleitung (2)
- Transparent-leitendes Oxid (2)
- Transport (2)
- UPS (2)
- Ultrafast information processing (2)
- Ultrafast spectroscopy (2)
- Ultrakurzzeitspektroskopie (2)
- Ultraviolett-Photoelektronenspektroskopie (2)
- Verbindungshalbleiter (2)
- WSS (2)
- WZ (2)
- Wechselwirkung (2)
- Weiche Röntgenstrahlung (2)
- Wellenleiter (2)
- Wirkungsquerschnitt (2)
- Wärmeisolierstoff (2)
- Wärmeleitung (2)
- Wärmeschutz (2)
- X-ray microscopy (2)
- XES (2)
- Z Boson (2)
- Zeitrichtung (2)
- Zinkoxid (2)
- ZnSe (2)
- Zwischenmolekulare Kraft (2)
- adaptive optimization (2)
- adaptive quantum control (2)
- adsorption (2)
- amino acids (2)
- anisotropy energy (2)
- aortic arch (2)
- balanced SSFP (2)
- ballistic transport (2)
- band structure (2)
- calcium phosphate (2)
- carbon (2)
- carbon nanotubes (2)
- cardiac (2)
- dSTORM (2)
- defects (2)
- diagnosis (2)
- doping (2)
- electrical and electronic engineering (2)
- electron (2)
- epitaxy (2)
- evolutionary algorithm (2)
- excitons (2)
- ferromagnetic semiconductors (2)
- ferromagnetism (2)
- field (2)
- freie Atmung (2)
- gas (2)
- gas phase (2)
- generation (2)
- half metal (2)
- heart (2)
- heat transfer (2)
- helical edge states (2)
- honeycomb lattice (2)
- inflammation (2)
- interband cascade lasers (2)
- interface (2)
- intermolecular interaction (2)
- inverse photoemission (2)
- laser spectroscopy (2)
- lung (2)
- macrophages (2)
- magnetic anisotropy (2)
- magnetic susceptibility (2)
- mapping (2)
- materials for optics (2)
- memory (2)
- mesoscopic (2)
- mesoscopics (2)
- metamorphic buffer layer (2)
- model (2)
- modulation spectroscopy (2)
- nano (2)
- nano optics (2)
- nano structure (2)
- nanophotonics and plasmonics (2)
- nanotechnology (2)
- nanowire (2)
- nanowires (2)
- neutrinos (2)
- nicht-kartesische Bildgebung (2)
- non-Cartesian Imaging (2)
- optical physics (2)
- optics and photonics (2)
- optimization (2)
- organic (2)
- organic light emitting diodes (2)
- organic photovoltaic (2)
- organic photovoltaics (2)
- organic thin films (2)
- organische Halbleiter (2)
- organische Photovoltaik (2)
- oscillations (2)
- oxygen vacancies (2)
- photocurrent (2)
- photoemission spectroscopy (2)
- photon statistics (2)
- phthalocyanine (2)
- polaritons (2)
- pp Collisions (2)
- proton-proton collisions (2)
- proton-proton-collision (2)
- proton–proton collisions (2)
- quantification (2)
- quantum dot laser (2)
- quantum information (2)
- quantum key distribution (2)
- quantum point contact (2)
- quantum spin hall insulator (2)
- reconstruction (2)
- resonant photoelectron spectroscopy (2)
- room temperature (2)
- safety (2)
- scanning tunneling spectroscopy (2)
- search (2)
- semiconductor interfaces (2)
- semiconductor quantum dot (2)
- semiconductor quantum dots (2)
- semimagnetic semiconductors (2)
- shadow mask (2)
- signal to noise ratio (2)
- silicon vacancy (2)
- single electron transistor (2)
- sodium (2)
- spin polarization (2)
- spin–orbit coupling (2)
- spontaneous symmetry breaking (2)
- standard model (2)
- superinsulation (2)
- surface state (2)
- surface states (2)
- thermoelectrics (2)
- thermopower (2)
- thin films (2)
- three-dimensional imaging (2)
- topological matter (2)
- transition radiation (2)
- transport (2)
- two-dimensional topological insulator (2)
- vacancy (2)
- verdünnt magnetische Halbleiter (2)
- vicinal surfaces (2)
- wall shear stress (2)
- waveguides (2)
- x-ray emission (2)
- Übergangsmetall (2)
- Übergitter (2)
- "(Ga (1)
- (13)C (1)
- (U)SAXS (1)
- (resonant) photoemission spectroscopy (1)
- + (1)
- 0.2 Tesla (1)
- 1550 nm (1)
- 1994> (1)
- 19F MR (1)
- 19F-MR (1)
- 19F-MRT (1)
- 1H MRI (1)
- 1H MRT (1)
- 2 Jets (1)
- 2 Photon Photoemission (1)
- 2-photon-photoemission (1)
- 23Na (1)
- 23Na-MRT (1)
- 2D (1)
- 2DEG (1)
- 3 Tesla (1)
- 3D (1)
- 3D Erdfeld-NMR Tomograph (1)
- 3D Pulverdruck (1)
- 3D X-ray microscopy (1)
- 3D analysis (1)
- 3D powder printing (1)
- 3D printing (1)
- 3D reconstruction (1)
- 3D topological insulator (1)
- 3D-Druck (1)
- 4D flow MRI (1)
- 4H (1)
- 8 TEV (1)
- AC Gradients (1)
- AC Stark effect (1)
- AG(110) (1)
- ASAXS (1)
- ATLAS New Small Wheel (1)
- ATLAS New Small Wheels (NSW) (1)
- ATLAS experiment (1)
- ATLAS-Detektor (1)
- AZO (1)
- Aberration (1)
- Abschattung (1)
- Abschirmung (1)
- Absorption (1)
- Abstimmbare Laser (1)
- Abwärmenutzung (1)
- Accelerator modelling and simulations (multi-particle dynamics; single-particle dynamics) (1)
- Acceptor (1)
- Acquisition-weighting (1)
- Acute Myocardial Infarction (1)
- Adaptive Optics (1)
- Adaptive Optik (1)
- Adaptive Optimierung (1)
- Adaptive Quanten Kontrolle (1)
- Adhäsion (1)
- Adiabatische Modenanpassung (1)
- Adsorbate (1)
- Adsorbate System (1)
- Adsorbates (1)
- Adsorbatsystem (1)
- Adsorptionskinetik (1)
- Adsorptionsschicht (1)
- Aerogele (1)
- Ag (1)
- Aharonov-Bohm (1)
- Aharonov-Casher phase (1)
- Aharonov-Casher-Effekt (1)
- Akquisitions-Wichtung (1)
- Aktivierung (1)
- Akzeptor (1)
- Akzeptor <Chemie> (1)
- AlGaInP (1)
- Aluminium-dotiertes Zinkoxid (1)
- Aluminiumoxide (1)
- Ambipolarer Ladungstransport (1)
- Amplifier (1)
- Analogschaltung (1)
- Analyse latenter Strukturen (1)
- Analysis (1)
- Analytische Simulation (1)
- Angle-resolved Photoemission Spectroscopy (1)
- Angular Resolved Photoelectron Spectroscopy (1)
- Anisotrope Diffusion (1)
- Anisotropic Magnetoresistance (1)
- Anisotropie (1)
- Anisotropieenergie (1)
- Anisotropy (1)
- Antenne (1)
- Antiferromagnet (1)
- Antiferromagnetikum (1)
- Antiferromagnetismus (1)
- Antimon (1)
- Aortic arch (1)
- ApoE\(^{(-/-)}\) (1)
- Applied physics (1)
- Array (1)
- Artefakt <Bildgebende Diagnostik> (1)
- Arterial water (1)
- Artery Models (1)
- Asthma (1)
- Atherosclerosis, intracranial arteries (1)
- Atherosklerose (1)
- Atlas detector (1)
- Atom und Molekülphysik (1)
- Atomgitter (1)
- Atomic (1)
- Atomic Force Microscopy (1)
- Atomic and molecular interactions with photons (1)
- Atomic force microscopy (1)
- Atomketten (1)
- Atomlagenabscheidung (1)
- Atomuhr (1)
- Attosekundenbereich (1)
- Au(111) (1)
- Aufnahmeplanung (1)
- Ausfrieren (1)
- Ausgangsmaterial (1)
- Austausch (1)
- Austauschaufspaltung (1)
- B-0 (1)
- B1 Mapping (1)
- BSG-Laser (1)
- BSM Higgs boson (1)
- BaBiO3 (1)
- Bakterielle Infektion (1)
- Ballistic Transport (1)
- Ballistischer Effekt (1)
- Ballistischer Ladungstransport (1)
- Band edge thermometry (1)
- Bandstruktur (1)
- Bandstrukturberechnung (1)
- Bariumtitanat (1)
- Bathophenanthrolin (1)
- Bauchaorta (1)
- Bauelemente (1)
- Bayerisches Zentrum für Angewandte Energieforschung / Abteilung Wärmedämmung und Wärmetransport (1)
- Bayesian methods (1)
- Berry phase (1)
- Beschichtung (1)
- Bessle functions (1)
- Bestimmung des Relaxations-Parameters in der Magnetresonanztomografie (1)
- Bestrahlung (1)
- Bhabha Scattering (1)
- BiTeBr (1)
- BiTeCl (1)
- BiTeI (1)
- Biegekristalltechnik (1)
- Bienenwolf (1)
- Bilagen-Solarzelle (1)
- Bildqualität (1)
- Bildrekonstruktion (1)
- Bindungsenergie (1)
- Biofabrication (1)
- Biologisches System (1)
- Biomedical engineering (1)
- Bismut (1)
- Bistability (1)
- Blei (1)
- Bloch Siegert (1)
- Bloch oscillations (1)
- Bloch-Siegert (1)
- Blood-brain barrier (1)
- Bornitrid (1)
- Boron Nitride (1)
- Bose-Einstein Correlations (1)
- Bose-Einstein condensation (1)
- Boson Production (1)
- Bragg-reflection waveguide (1)
- Brain (1)
- Branching fractions (1)
- Brassica napus (1)
- Breast-tumors (1)
- Breathing (1)
- Bruchfläche (1)
- Bruchmechanik (1)
- Brustaorta (1)
- Buckminsterfulleren (1)
- Bulk-boundary correspondence (1)
- Burst (1)
- By-Light Scattering (1)
- C-13-metabolic flux analysis (1)
- CCIG-Laser (1)
- CCIG-laser (1)
- CERN (1)
- CHIP (1)
- CIGS (1)
- CMR (1)
- CMR-Systeme (1)
- CMR-systems (1)
- CPP-GMR (1)
- CRLs (1)
- Calorimeter (1)
- Calorimeter methods (1)
- Capacitive Effects (1)
- Cardiac (1)
- Cardiovascular Magnetic Resonance (1)
- Cavity quantum electrodynamics (1)
- CdSe/ZnS Nanoteilchen (1)
- CdZnSe/ZnSe (1)
- CeCu6 (1)
- Chambers (1)
- Characterization and analytical techniques (1)
- Charakterisierung (1)
- Charge Carrier Generation (1)
- Charge Carrier Lifetime (1)
- Charge carrier recombination (1)
- Charge-Transfer (1)
- Charged-Particles (1)
- Charges recombination (1)
- Charm quark (1)
- Charmonia (1)
- Chemische Bindung (1)
- Chemische Verschiebung (1)
- Chemischer Austausch (1)
- Chemisorption (1)
- Cherenkov detectors (1)
- Chromoxid <Chrom(IV)-oxid> (1)
- Chronic obstrusive pulmonary disease (1)
- Cluster (1)
- Co (1)
- CoPt (1)
- Codierung (1)
- Coefficient (1)
- Coherent 2D Spectroscopy (1)
- Coherent Control (1)
- Coherent Multidimensional Spectroscopy (1)
- Coherent Two-dimensional Nanoscopy (1)
- Collective effects in quantum optics (1)
- Collicions (1)
- Color (1)
- Color Center (1)
- Combination (1)
- Compressed Sensig (1)
- Computer (1)
- Computerunterstütztes Lernen (1)
- Condensed matter (1)
- Core-shell (1)
- Core-shell Nanoteilchen (1)
- Correlated Electron Materials (1)
- Coulomb interaction (1)
- Coulomb-blockade (1)
- Couplings (1)
- CrO2 (1)
- Crop seed (1)
- Cross-Sections (1)
- Crystal (1)
- CuMnSb (1)
- Cystic fibrosis (1)
- DBR-Laser (1)
- DBR-laser (1)
- DC-Gating (1)
- DECAY (1)
- DFB-laser (1)
- DFT (1)
- DLS (1)
- DLTS (1)
- DMS (1)
- DNMR-Spektroskopie (1)
- DNS (1)
- DNS-Reparatur (1)
- Dark-Matter (1)
- Dark-matter (1)
- Dark-matter production (1)
- Datenspeicher (1)
- Dauerstrichbetrieb (1)
- Decay sequence (1)
- Decays (1)
- Deep Inelastic-scattering (1)
- Defektspektroskopie (1)
- Degradation <Technik> (1)
- Delamination (1)
- Delbruck Scattering (1)
- Density-weighting (1)
- Dependence (1)
- Detektor-Array (1)
- Deterioration (1)
- Diagnostic medicine (1)
- Diamant (1)
- Dichte-Wichtung (1)
- Dichtebestimmung in Theorie und Experiment (1)
- Dichtefunktionalformalismus (1)
- Dichtegewichtete Bildgebung (1)
- Didaktik (1)
- Dielektrikum (1)
- Differential Cross-Sections (1)
- Diffusion model (1)
- Diffusions-MRT (1)
- Diffusionsmodell (1)
- Dilatometrie (1)
- Dilute Nitrides (1)
- Diluted Magnetic Semiconductors (1)
- Diluted magnetic semiconductors (1)
- Dimension 3 (1)
- Dimensional Crossover (1)
- Dimerisierung (1)
- Dirac semimetal (1)
- Disordered semiconductor (1)
- Disperse Phase (1)
- Donor-Acceptor Interface (1)
- Doppeldiode (1)
- Dotierter Halbleiter (1)
- Double-Beta Decay (1)
- Dreidimensionale Bildverarbeitung (1)
- Dreidimensionales Bild (1)
- Dreidimensionales Modell (1)
- Drift-Diffusion (1)
- Drude model (1)
- Drude-Modell (1)
- Durchblutungsmessung (1)
- Durchstrahlungselektronenmikroskopie (1)
- Dynamic Imaging (1)
- Dynamic magnetic resonance imaging (1)
- Dynamical Supersymmetry Breaking (1)
- Dynamics (1)
- Dynamisch-ikonische Repräsentation (1)
- Dynamische Lichtstreuung (1)
- Dynamische MR Bildgebung (1)
- Dynamische Messung (1)
- Dyson orbitals (1)
- Dünnschichten (1)
- Dünnschichttechnik (1)
- Dünnschichttransistor (1)
- E(+)E(-) collicions (1)
- E-Learning (1)
- ECV (1)
- EDX spectra (1)
- EP Procedures (1)
- EPR Spektroskopie (1)
- EUV (1)
- EXAFS (1)
- Eccentricities (1)
- Echozeit (1)
- Einkristall (1)
- Einzelelektronentransistor (1)
- Einzelphotonenemisson (1)
- Elastische Spannung (1)
- Electrical transport (1)
- Electrochemical energy storage (1)
- Electromagnetic signals (1)
- Electron Paramagnetic Resonance (1)
- Electron Spin Resonance (1)
- Electron Transparency (1)
- Electron density (1)
- Electron spin (1)
- Electronic Structure (1)
- Electronic structure (1)
- Electronics (1)
- Electroweak Measurements (1)
- Electroweak Phase-Transition (1)
- Elektrische Entladung (1)
- Elektrolumineszenz (1)
- Elektromigration (1)
- Elektronen Tunneln (1)
- Elektronenbeugung (1)
- Elektronendichte (1)
- Elektronendichtebestimmung (1)
- Elektronenmikroskopie (1)
- Elektronenstrahllithografie (1)
- Elektronenstreuung (1)
- Elektronische Anregung (1)
- Elektronische Eigenschaften (1)
- Elektronische Korrelationen (1)
- Elektronisches Bauelement (1)
- Elektronisches Rauschen (1)
- Elementarteilchenphysik (1)
- Elementbestimmung (1)
- Emissionsvermoegen (1)
- Energie (1)
- Energieauflösung (1)
- Energiedispersiv (1)
- Energiedispersive Röntgenspektroskopie (1)
- Energielücke (1)
- Energierückgewinnungszeit (1)
- Energies (1)
- Energietechnik (1)
- Energy Harvesting (1)
- Ensemble-Modellierung (1)
- Entanglement (1)
- Envelopefunktionennäherung (1)
- Epitaxie (1)
- Erdfeld (1)
- Erdmagnetismus (1)
- Erzeugung Hoher Harmonischer (1)
- Erzeugung hoher Harmonischer (1)
- Event builder (1)
- Events GW150914 (1)
- Evolutionäre Optimierung (1)
- Evolutionärer Algorithmus (1)
- Excited states (1)
- Excited states spectroscopy (1)
- Exciton (1)
- Exciton-polariton condensate (1)
- Exotic mesons (1)
- Experimental Physics (1)
- Experimental stroke (1)
- Extensions of Higgs sector (1)
- Extensions of fermion sector (1)
- External-Cavity Quantum Cascade Laser (1)
- Externer-Kavitäts-Quanten-Kaskaden-Laser (1)
- Extinktion (1)
- Extrazellularvolumen (1)
- Extremes Ultraviolett (1)
- Exzitonen Diffusionslänge (1)
- Exzitonen Dynamik (1)
- Exzitonen Transport (1)
- Exzitonenbeweglichkeit (1)
- F-19 MRI (1)
- FAIR-ASL (1)
- FDTD (1)
- FDTD Simulation (1)
- FIB (1)
- FIONA (1)
- FTIR spectroscopy (1)
- Fabry-Pérot-Resonator (1)
- Facette (1)
- Facettierung (1)
- Fachdidaktik (1)
- Faraday-Effekt (1)
- Farbzentrum (1)
- Faser (1)
- Faserorientierung (1)
- Fatigue (1)
- Fe3O4 (1)
- FeSi (1)
- Felddetektion (1)
- Femtochemie (1)
- Femtochemistry (1)
- Femtosecond Dynamics (1)
- Femtosecond Laser Pulse Shaping (1)
- Femtosecond Pulse Shaping (1)
- Femtosecond dynamics (1)
- Femtosekunden (1)
- Femtosekunden Dynamik (1)
- Femtosekunden Pulsformung (1)
- Femtosekunden-Laserpulsformung (1)
- Femtosekunden-Laserspektroskopie (1)
- Femtosekundendynamik (1)
- Femtosekundenpulse (1)
- Femtosekundenspektroskopie (1)
- Fermiverteilung (1)
- Ferroelektrikum (1)
- Ferromagnet (1)
- Ferromagnetische Heterostruktur (1)
- Ferromagnetism (1)
- Festkörperspektroskopie (1)
- Festkörpersupport (1)
- Feuchte (1)
- Fiber Orientation (1)
- Field Effect Transistor (1)
- Finite Element Simulationen (1)
- Finite Element Simulations (1)
- Finite-Elemente-Methode (1)
- Flavor Violation (1)
- Flugzeit (1)
- Fluorescence imaging with one nanometer accuracy (1)
- Fluoreszenzkorrelationsspektroskopie (1)
- Fluoreszenzlebensdauer-Mikroskopie (1)
- Fluoreszenzlöschung (1)
- Fluoreszenzmikroskopie (1)
- Fluorophore (1)
- Flussbildgebung (1)
- Flussleiter (1)
- Flüssiger Zustand (1)
- Flüstergaleriemode (1)
- Formaldehyd (1)
- Fortran code (1)
- Fotodetektor (1)
- Fotodetektoren (1)
- Fotophysik (1)
- Fourier-transform infrared spectroscopy (1)
- Fourier-transform spectral interferometry (1)
- Fourier-transform spectroscopy (1)
- Fragmentationsenergie (1)
- Freies Molekül (1)
- Frequenzverdopplung (1)
- Fresnel-Zonenplatte (1)
- Fulleren (1)
- Fullerenderivate (1)
- Functional magnetic resonance imaging (1)
- Functional-NMR Tumor Oxygenation Perfusion Simulation (1)
- Funktionelle NMR-Tomographie (1)
- G8 Bayern (1)
- GAAS (1)
- GAMMA (1)
- GMR (1)
- GaAs/AlGaAs Heterostruktur (1)
- GaAs/AlGaAs heterostructure (1)
- GaAs/Luft-Braggspiegel (1)
- GaAsSb (1)
- GaInNAs (1)
- GaSb (1)
- GaSb/AlAsSb (1)
- GaSb/InAs (1)
- Gallium (1)
- Gallium Manganese Arsenide (1)
- Galliumarsenid-Feldeffekttransistor (1)
- Galliumphosphid (1)
- Gamma (1)
- Gamma-Burst (1)
- Gammablitze (1)
- Gas mixtures (1)
- Gasadsorption (1)
- Gasanalyse (1)
- Gasdruck (1)
- Gaseous Hydrocarbons (1)
- Gaseous detectors (1)
- Gasförmige Kohlenwasserstoffe (1)
- Gasgemisch (1)
- Gasphase (1)
- Gauge bosons (1)
- Gefügekunde (1)
- Gene-expression (1)
- Generation (1)
- Geräuschminderung (1)
- Gewebecharakterisierung (1)
- Giantmagnetoresistance (1)
- Gitterdynamik (1)
- Gittersimulator (1)
- Glatter Krallenfrosch (1)
- Gluon (1)
- Gluon Fusion (1)
- Glycin Peptide (1)
- Glykosylierung (1)
- Gradientensystem (1)
- Gradients (1)
- Graphische Darstellung (1)
- Gravitons (1)
- Grenzflächenchemie (1)
- Grenzflächeneigenschaften (1)
- Grenzflächenleitfähigkeit (1)
- Grenzflächenphysik (1)
- Grenzschicht (1)
- Gunnarsson Schönhammer (1)
- H2Pc (1)
- HARPES (1)
- HE-3 diffusion MRI (1)
- HHG (1)
- HIGGS (1)
- HOMOGENIZED (1)
- HPc (1)
- HREELS (1)
- HRTEM (1)
- Hadron Collider (1)
- Hadron-hadron interactions (1)
- Haftungstest (1)
- Halb-Heusler Legierung NiMnSb (1)
- Halbleiterbauelement (1)
- Halbleiterdiode (1)
- Halbleiterheterostrukturen (1)
- Halbleitersubstrat (1)
- Halbleiter‐Laser (1)
- Halbmetalle (1)
- Half Heusler alloy NiMnSb (1)
- Hard X-ray Angle Resolved Photoemission (1)
- Hard scattering (1)
- Harmonische (1)
- Harte Röntgenstrahlung (1)
- Hartmannsensor (1)
- Heavy-Particles (1)
- Heißes Elektron (1)
- Helimagnetism (1)
- Hemisphärische Kavität (1)
- Hemodynamics (1)
- Herz-MRT (1)
- Herzbildgebung (1)
- Herzschlag (1)
- Herzshuntdiagnostik (1)
- Heteroepitaxie (1)
- Heteroorganische Monolage (1)
- Heterostructure Growth (1)
- Heterostrukturen (1)
- Hg(1-x)Cd(x)Te (1)
- Hg1-xCdxTe (1)
- Hierarchy problem (1)
- Higgs boson decays (1)
- Higgs boson mass (1)
- Higgs physics (1)
- Higgy-Boson (1)
- High-Energies (1)
- High-Harmonic Generation (1)
- High-Z Oxides (1)
- High-order Harmonic Generation (1)
- Hitzdrahtverfahren (1)
- Hochfeld-NMR (1)
- Hochgeordnete Monolagen (1)
- Hochgeschwindigkeitskinematographie (1)
- Hochmagnetfeld (1)
- Hochtemperatur-Wärmeisolation (1)
- Hofmeister (1)
- Hofmeister-Serie (1)
- Hohe Harmonisch Generation (1)
- Hohe Harmonische (1)
- Hohen-Harmonischen Erzeugung (1)
- Hohlfaser (1)
- Holstein model (1)
- Holstein-Modell (1)
- Hordeum vulgare (1)
- Hot electron (1)
- Hubbard model (1)
- Hubbard-Modell (1)
- Human brain (1)
- Husimi (1)
- Hybridbildgebung (1)
- Hypertonic (1)
- Hypothetical particle physics models (1)
- Hämodynamik (1)
- Hüftkopfnekrose (1)
- IG-FET (1)
- II-IV Halbleiter (1)
- II-VI Semiconductors (1)
- II-VI heterostructures (1)
- II-VI-semiconductor (1)
- II-VI-semiconductors (1)
- III - V Halbleiter (1)
- III - V semiconductors (1)
- III-V semiconductor quantum dot (1)
- III–V semiconductor devices (1)
- IPES (1)
- IR-TrueFISP (1)
- ITO (1)
- Identität (1)
- Image Reconstruction (1)
- Images (1)
- Imaging (1)
- Imaging spin-filter (1)
- Impaktversuche (1)
- Impedance Spectroscopy (1)
- Impedanzspektroskopie (1)
- Implantat (1)
- Impulsformung (1)
- Impulslaserbeschichten (1)
- Impulsmikroskopie (1)
- In situ (1)
- In vivo (1)
- In-vivo (1)
- InAs/GaAs Quantenpunkte (1)
- InAs/GaAs quantum dots (1)
- Incommensurate spin structure (1)
- Indium (1)
- Infarct Zone (1)
- Infarkt (1)
- Infektionsbildgebung (1)
- Information (1)
- Infrarot (1)
- Infrarotemission (1)
- Infrarotspektroskopie (1)
- Inhomogeneities (1)
- Inhomogenität (1)
- Inkommensurable Zykloide (1)
- Insulating thin films (1)
- Insulator surfaces (1)
- Integrated circuit (1)
- Integriert-optisches Bauelement (1)
- Integriertes Lernen (1)
- Interband cascade lasers (1)
- Interesse (1)
- Interface Conductivity (1)
- Interface physics (1)
- Interferenz <Physik> (1)
- Intersubband-Resonanz (1)
- Intrinsic charm (1)
- Inverse Photoemission (1)
- Inverse Photoemissions (1)
- Inverse Probleme (1)
- Inversion Recovery (1)
- Inversion Symmetry Breaking (1)
- Inversionsasymmetrische Halbleiter (1)
- Ionization (1)
- Iridate (1)
- Iron Oxide Nanoparticle (1)
- Iron-oxide (1)
- Iron-uptake (1)
- Irradiation (1)
- Isaac (1)
- Ischämie (1)
- Isomerisierungsreaktion (1)
- Isomerization (1)
- Jaynes-Cummings ladder (1)
- Jena / Institut fuer Optik und Quantenelektronik Jena (1)
- Jet Prodution (1)
- Josephson effect (1)
- Josephson junction (1)
- Josephson junctions (1)
- Josephson-Kontakt (1)
- K* µ+μ− (1)
- KR (1)
- KTaO3 (1)
- KWIC (1)
- Kalium (1)
- Kantenzustand (1)
- Kapazität (1)
- Kardio-MRT (1)
- Kationische Lipidbilayer (1)
- Kavitation (1)
- Keramikfaser (1)
- Keramischer Werkstoff (1)
- Kern-Schale-Struktur (1)
- Kernspinrelaxation (1)
- Kernspintomograph (1)
- Kinematik (1)
- Kirchhoff's law (1)
- Knochen (1)
- Knochenstruktur (1)
- Knochenzement (1)
- Koadsorbat (1)
- Kohaerente Optik (1)
- Kohlenwasserstoffsensorik (1)
- Kohärente 2D Spektroskopie (1)
- Kohärente Anregung (1)
- Kohärente Optik (1)
- Kollektivanregung (1)
- Kollektive Anregung (1)
- Kolloider Halbleiter (1)
- Kondensation (1)
- Kondensierte Materie (1)
- Kondo (1)
- Kondo-Modell (1)
- Kondo-System (1)
- Kongreß (1)
- Konjugierte Polymere (1)
- Kontamination (1)
- Kontrollierte Wirkstofffreisetzung (1)
- Kooperatives Lernen (1)
- Koppler (1)
- Kopplung von Festkörper- und Gaswärmeleitung (1)
- Koronarperfusion (1)
- Korrelation (1)
- Kosmische Strahlung (1)
- Krach (1)
- Kraft (1)
- Kraftmessung (1)
- Kristall (1)
- Kristallfläche (1)
- Kristalloberfläche (1)
- Kristallwachstum (1)
- Kristallzüchtung (1)
- Künstliche Synapsen (1)
- LAALO3/SRTIO3 interfaces (1)
- LC-Oszillator (1)
- LDOS (1)
- LED (1)
- LHS (1)
- LaAlO3 (1)
- LaAlO3/SrTiO3 (1)
- LaAlO\(_3\)/SrTiO\(_3\) (1)
- LaVO3 (1)
- Laborgerät (1)
- Labormikroskopie (1)
- Ladungsdichtewelle (1)
- Ladungslokalisierung (1)
- Ladungsträger (1)
- Ladungsträgergenerierung (1)
- Ladungsträgerrekombination (1)
- Landau-Niveau (1)
- Lanthanoxid (1)
- Lanthantitanate (1)
- Large detector systems for particle and astroparticle physics (1)
- Laser absorption spectroscopy (1)
- Laserablation (1)
- Laserabsorptionspektroskopie (1)
- Laserarray (1)
- Laserchemie (1)
- Lasererzeugtes Plasma (1)
- Laserspektroskopie (1)
- Laserverstaerker (1)
- Laserverstärker (1)
- Lasing (1)
- Latentwärmespeicher (1)
- Lattice Light-Sheet (1)
- Lautstärkereduktion (1)
- Lead-free double perovskite (1)
- Leerlaufspannung (1)
- Legierungs-Hubbard-Modell (1)
- Legionella (1)
- Legionella pneumophila (1)
- Legionellen (1)
- Legionärskrankheit (1)
- Lehr-Lern-Forschung (1)
- Lehr-Lern-Labor (1)
- Lehramt (1)
- Lehramtsstudierende (1)
- Lehramtsstudium (1)
- Lehranalyse (1)
- Lehrerbildung (1)
- Leistungsverstärkung (1)
- Lepton (1)
- Leptonic (1)
- Leptons (1)
- Lernerfolg (1)
- Lernvideos (1)
- Lesions (1)
- Licht Materie Wechselwirkung (1)
- Lichtinduzierter Effekt (1)
- Lichtwellenleiter (1)
- Light-Matter-Interaction (1)
- Light-Sheet (1)
- Lipid (1)
- Lipidmembran (1)
- Liquid AR (1)
- Lithografie <Halbleitertechnologie> (1)
- Lithographie <Halbleitertechnologie> (1)
- Lithography (1)
- Localization Microscopy (1)
- Localized states (1)
- Lock Locker (1)
- Logic Gate (1)
- Logisches Gatter (1)
- Lokales Wachstum (1)
- Long-range order (1)
- Low energy electron microscopy LEEM (1)
- Low temperature effects (1)
- Low-Dimensional Electron Systems (1)
- Low-dimensional molecular metals (1)
- Low-e (1)
- Luminescence (1)
- Lumineszenzdiode (1)
- Lumineszenzlöschung (1)
- Lung Function (1)
- Lung Imaging (1)
- Lung cancer (1)
- Lungenbildbgebung (1)
- Lungenfunktionsprüfung (1)
- Lungenkrebs (1)
- Luttinger liquide (1)
- Lärm (1)
- Lärmbelastung (1)
- MIR spectroscopy (1)
- MIR-Spektroskopie (1)
- MPGD (1)
- MPI (1)
- MPS (1)
- MR guidance (1)
- MR imaging (1)
- MR microscopy (1)
- MR-MPI-Tomograph (1)
- MR-imaging (1)
- MRI criteria (1)
- MRI reporter (1)
- MRS (1)
- MRT der Lunge (1)
- MU-M (1)
- Ma (1)
- Macroscopic transport (1)
- Magnesiumphosphat (1)
- Magnesiumphosphate (1)
- Magnetfeld-Wechselwirkung (1)
- Magnetfeldsensor (1)
- Magnetic Resonance (1)
- Magnetic Resonance Relaxometry (1)
- Magnetic properties of thin films interfaces (1)
- Magnetic-resonance (1)
- Magnetisch (1)
- Magnetische Anisotropien (1)
- Magnetische Anregung (1)
- Magnetische Halbleiter (1)
- Magnetische Suszeptibilität (1)
- Magnetischer Sensor (1)
- Magnetisierung (1)
- Magneto-Electric Effect (1)
- Magneto-Elektrischer Effekt (1)
- Magneto-optik (1)
- Magneto-optische Eigenschaften (1)
- Magnetoelectric effect (1)
- Magnetometrie (1)
- Magnetometry (1)
- Magnetoresistance (1)
- Magnetpartikelspektroskopie (1)
- Magnetresonanz-Relaxometrie (1)
- Magnetresonanzbildgebung (1)
- Magnetresonanzmikroskopie (1)
- Magnetsensor (1)
- Magnetspule (1)
- Magnetteilchen (1)
- Mahlprozess (1)
- Mais (1)
- Majorana bound state (1)
- Majorana-Nullmoden (1)
- Malaria (1)
- Malignant effusion (1)
- Manganese Silicide (1)
- Manganesesilicide (1)
- Manganion (1)
- Mangansilizid (1)
- Maske (Halbleitertechnologie) (1)
- Mass Spectrum (1)
- Massenspektrometrie (1)
- Massenspektroskopie (1)
- Materialanalytik (1)
- Materials science (1)
- Matter (1)
- Measurement (1)
- Measuring masses (1)
- Mechanik (1)
- Medicine (1)
- Medizin (1)
- Mehrfach-Solarzelle (1)
- Mehrphotonen-Spektroskopie (1)
- Membranschwingung (1)
- Membranspannung (1)
- Membranviskosität (1)
- Memkondensator (1)
- Meniere’s disease (1)
- Mercury Telluride (1)
- Mercury telluride (1)
- Mesoskopischer Transport (1)
- Mesoskopisches System (1)
- Metall (1)
- Metall-Halbleiter-Kontakt (1)
- Metallcluster (1)
- Metallimplantat (1)
- Metalloxide (1)
- Metallschicht (1)
- Metamaterial (1)
- Methanol (1)
- Metrologie (1)
- Mexico City (1)
- Micelle (1)
- Micro-Hall Magnetometry (1)
- Micro-SQUID (1)
- Microcavities (1)
- Microcavity (1)
- Microcavity devices (1)
- Microresonator (1)
- Microscopy (1)
- Microstructure Modelling (1)
- Microstructure–Property–Relationship (1)
- Mid-infrared photoluminescence (1)
- Mie-Streuung (1)
- Mikro-SQUID (1)
- Mikrocomputertomographie (1)
- Mikrofertigung (1)
- Mikrohallmagnetometrie (1)
- Mikrokavitäten (1)
- Mikrolaser (1)
- Mikroporosität (1)
- Mikroskop (1)
- Mikroskopische Technik (1)
- Mikrospektralanalyse (1)
- Mikrostrukturmodellierung (1)
- Mikrostruktur–Eigenschafts–Korrelationen (1)
- Mikrosystemtechnik (1)
- Mikrotubulus (1)
- Millimeterwelle (1)
- Mischkristall (1)
- Missing Energy (1)
- Mn)As" (1)
- MnSi (1)
- Mode propagation (1)
- Model Based Reconstruction Algorithms in Magnetic Resonance Imaging (1)
- Modellbasierte-Rekonstruktionsalgorithmen in der Magnetresonanztomografie (1)
- Modellbildung (1)
- Moden (1)
- Modenpropagation (1)
- Modulation (1)
- Moelucar beam epitaxy (1)
- Molecular Physics (1)
- Molecular and Optical Physics (1)
- Molecular beam Epitaxy (1)
- Molecular beam epitxy (1)
- Molekularbewegung (1)
- Molekulare Sonde (1)
- Molekularelektronik (1)
- Molekularer Schalter (1)
- Molekularstrahl Epitaxie (1)
- Molekülkontakte (1)
- Molekülorbital (1)
- Molekülspektroskopie (1)
- Molekülsymmetrie (1)
- Molekülzustand (1)
- Momentum- and spin-resolved hard X-ray photoelectron spectroscopy (1)
- Monolage (1)
- Monolayer (1)
- Monte Carlo simulation (1)
- Monte-Carlo-Simulation (1)
- Motivation (1)
- Mott Transistion (1)
- Mott insulator (1)
- Mott-Schottky Analyse (1)
- Mott-Übergang (1)
- Mott–Schottky analysis (1)
- Mouse (1)
- Mouse models (1)
- Multiferroika (1)
- Multimedia (1)
- Multimode-Laser (1)
- Multiple-Scattering (1)
- Multiproteinkomplex (1)
- Muon spectrometers (1)
- Muskelfaser (1)
- Mustervergleich (1)
- Myokardiale Perfusion (1)
- Myokardiale T1ρ-Quantifizierung (1)
- Myon (1)
- NEXAFS spectroscopy (1)
- NIR OLED (1)
- NIXSW (1)
- NLO QCD (1)
- NMR-Imaging (1)
- NMR-Mammographie (1)
- NMR-Spektrometer (1)
- NMR-microscopy (1)
- NMR-spectroscopy (1)
- NNLO (1)
- NSCLC (1)
- Nahfeld Optik (1)
- Nano-Optik (1)
- Nanoantenne (1)
- Nanodot-Speicher (1)
- Nanolithografie (1)
- Nanooptic (1)
- Nanooptics (1)
- Nanoparticles (1)
- Nanoporöser Stoff (1)
- Nanosonde (1)
- Nanostructure (1)
- Nanostructures (1)
- Nanotechnologie (1)
- Nanowires (1)
- Natrium-23 (1)
- Natriumhydroxid (1)
- Natur und Technik (1)
- Natur und Technikunterricht (1)
- Navigator (1)
- Netzwerk (1)
- Neue Physik (1)
- Neuroinformatik (1)
- Neuronale Netzwerke (1)
- Neutrino Mass (1)
- Neutrino detectors (1)
- Neutronenstreuung (1)
- New Small Wheel (1)
- New physics (1)
- Newton (1)
- Nicht-Transparente Medien (1)
- Nicht-kartesische Bildgebung (1)
- Nicht-kleinzelliges Bronchialkarzinom (1)
- Nichtflüchtiger Speicher (1)
- Nichtlineare Optik (1)
- Nichtunterscheidbarkeit (1)
- Niederdimensionale Molekulare Metalle (1)
- Niere (1)
- Nitride (1)
- Non-Cartesian Imaging (1)
- Non-Hermitian skin effect (1)
- Non-transparency (1)
- Nonlinear Dynamics (1)
- Nuclear (1)
- Nuclear Modification (1)
- Näherungsverfahren (1)
- OFET (1)
- OLEDs (1)
- OSI (1)
- Oberflächenanalyse (1)
- Oberflächenchemie (1)
- Oberflächenlegierung (1)
- Oberflächenphonon (1)
- Oberflächenplasmon (1)
- Oberflächenplasmonen (1)
- Oberflächenpräparation (1)
- Oberflächenröntgenbeugung (1)
- Oberflächenspannung (1)
- Oil (1)
- Oncolytic virotherapy (1)
- Onedimensional (1)
- Optical Spectroscopy (1)
- Optimale Kontrolle (1)
- Optische Anisotropie (1)
- Optische Antennen (1)
- Optisches Filter (1)
- Orbital (1)
- Orbital Angular Momentum (1)
- Orbitaltomographie (1)
- Ordered metal adsorbates on semiconductor surfaces (1)
- Ordnungs-Unordnungs-Umwandlung (1)
- Organic Light Emitting Diode (1)
- Organic Photovoltaic (1)
- Organic Photovoltaics (1)
- Organic Solar Cells (1)
- Organic and hybrid semiconductors (1)
- Organic semiconductors (1)
- Organik (1)
- Organik-Metall Grenzflächen (1)
- Organische Dünnschichten (1)
- Organische Leuchtdioden (1)
- Organische Moleküle (1)
- Organische Solarzellen (1)
- Organische Verbindungen (1)
- Organischer Stoff (1)
- Oxid (1)
- Oxide (1)
- Oxide Heterostructure (1)
- Oxidhalogenide (1)
- Oxygenierung (1)
- P(P) over-bar collisions (1)
- P(P)over-bar collicions (1)
- P123 (1)
- P3HT (1)
- PB-PB Collisions (1)
- PCM (1)
- PLD (1)
- PP Collicions (1)
- PP Collisions (1)
- PP collisions (1)
- PPB Collisions (1)
- PT-Transformation (1)
- PUMP (1)
- PWV (1)
- Paarpotentiale (1)
- Pair Prodution (1)
- Pair-Production (1)
- Paneel (1)
- Papier-Solarzelle (1)
- Parallel imaging (1)
- Paramagnetic resonance (1)
- Parametric down-conversion (1)
- Partib distributions (1)
- Particle accelerators (1)
- Particle correlations & fluctuations (1)
- Particle dark matter (1)
- Particle physics (1)
- Particle production (1)
- Particle properties (1)
- Particle tracking detectors (Gaseous detectors) (1)
- Particles (1)
- Parton Ditributions (1)
- Patientenkomfort (1)
- Patron distributions (1)
- Pattern Matching (1)
- Pattern recognition (1)
- PbSnSe (1)
- Peierls-Übergang (1)
- Pentacen (1)
- Peptide (1)
- Perfluorkarbon (1)
- Performance of High Energy Physics Detectors (1)
- Perfusionsmessung (1)
- Perowskite (1)
- Perowskit‐Halbleiter (1)
- Perowskit‐Solarzellen (1)
- Perturbative QCD (1)
- Pfadintegral (1)
- Pflanzenbildgebung (1)
- Pflanzengewebe (1)
- Phase-encoding (1)
- Phased (1)
- Phasen-Kodierung (1)
- Phasendynamik (1)
- Phasenkohärenz (1)
- Phasenkontrastverfahren (1)
- Phasenraumdarstellung (1)
- Phasenschieber (1)
- Phasenumwandlung (1)
- Phenol-Formaldehyd-Kondensationsprodukt (1)
- Phonon (1)
- Phosphor-31-NMR-Spektroskopie (1)
- Photoanregung (1)
- Photocurrent (1)
- Photodetektor (1)
- Photoemission electron microscopy PEEM (1)
- Photoemission spectroscopy (1)
- Photoemissionselektronenmikroskopie (1)
- Photofragmentation (1)
- Photoisomerisation (1)
- Photoisomerization (1)
- Photolumineszenz Quenching (1)
- Photon detectors for UV, visible and IR photons (vacuum) (1)
- Photonic crystals (1)
- Photonik (1)
- Photons (1)
- Photophysics (1)
- Photophysik (1)
- Photoviltaics (1)
- Phthalocyanine (1)
- Physical Sciences (1)
- Physical sciences (1)
- Physikalische Charakterisierung (1)
- Physikalische Schicht (1)
- Physikalische Zeit (1)
- Physikdidaktik (1)
- Physioloische MRT (1)
- Plasmon propagation (1)
- Plasmonen (1)
- Plasmonics (1)
- Plasmonik (1)
- Plastic electronics (1)
- Pluronic (1)
- Plus (1)
- Plus Plus (1)
- Polarer Halbleiter (1)
- Polarisation (1)
- Polarisationspulsformung (1)
- Polarisiertes Licht (1)
- Polariton-Kondensation (1)
- Polariton-Laser (1)
- Polymerhalbleiter (1)
- Polymerlösung (1)
- Porengröße (1)
- Positionierte Quantenpunkte (1)
- Positionierung (1)
- Predictions (1)
- Production Cross-Section (1)
- Production cross-section (1)
- Professionelle Unterrichtswahrnehmung (1)
- Programm (1)
- Proteins (1)
- Proton-Lead (1)
- Proton-Proton- Collisions (1)
- Proton-Proton-Streuung (1)
- Protonen-NMR-Spektroskopie (1)
- Protons (1)
- Prototype (1)
- Prozessierung (1)
- Präbolus (1)
- Präpolarisationssystems (1)
- Präzisionsmessung (1)
- Pseudorapidity (1)
- Pt (1)
- Pulmonary function (1)
- Pulse Shaping (1)
- Pulse shaping (1)
- Pulsed laser deposition (1)
- Pulswelle (1)
- Pulswellengeschwindigkeit (1)
- Pulver (1)
- Pumpen <Laser> (1)
- Purcell-Effekt (1)
- Pyrolyse (1)
- Pyrometrie (1)
- Q2DEG (1)
- QA-Methode (1)
- QCD Corrections (1)
- QKD (1)
- QTL mapping (1)
- QW interface profile (1)
- Quanten anomalen Hall-Effekt (1)
- Quanten-Dash (1)
- Quanten-Kontrolle (1)
- Quanten-Monte-Carlo (1)
- Quanten-Spin-Hall-Effekt (1)
- Quantenelektrodynamik (1)
- Quantenfilm (1)
- Quantenkryptologie (1)
- Quantenoptik in Halbleitersystemen (1)
- Quantensensor (1)
- Quantensensorik (1)
- Quantenspinsystem (1)
- Quantentransport (1)
- Quantentrogzustände (1)
- Quantenwell-Laser (1)
- Quantum Control (1)
- Quantum Plasmonics (1)
- Quantum Spin Hall Effect (1)
- Quantum Well (1)
- Quantum Well States (1)
- Quantum chromodynamics (1)
- Quantum chronodynamics (1)
- Quantum confined Stark effect (1)
- Quantum electrodynamics (1)
- Quantum optics with artificial atoms (1)
- Quantum well (1)
- Quantum wells (1)
- Quantum-well, -wire and -dot devices (1)
- Quantumwire (1)
- Quark (1)
- Quark pair procuction (1)
- Quarkonium Production (1)
- Quarks (1)
- Quasi-1D Elektronensysteme (1)
- Quasi-eindimensionale Organische Metalle (1)
- Quasiparticle Lifetime (1)
- Quasiteilchen-Lebensdauer (1)
- Quasiteilcheninterferenz (1)
- RAKI (1)
- RECOLA (1)
- REELS (1)
- RF Coil arrays (1)
- RF Coils (1)
- RMnO3 (1)
- RNA-SEQ (1)
- RTD (1)
- Radial Imaging (1)
- Radiale Bildgebung (1)
- Radiation calculations (1)
- Radiative-corrections (1)
- Radikalanionensalz (1)
- Radiologische Diagnostik (1)
- Ramanspektroskopie (1)
- Rapid Prototyping (1)
- Rare earth manganites (1)
- Rashba (1)
- Rashba-Splitting (1)
- Rastermikroskop (1)
- Rastertunnelspektoskopie (1)
- Rats (1)
- Reaction kinetics and dynamics (1)
- Reaktionskinetik (1)
- Real-time MRI (1)
- Recombination Dynamics (1)
- Reduction (1)
- Reflexion <Physik> (1)
- Reflexionsgeometrie (1)
- Regimes (1)
- Regionales Blutvolumen (1)
- Registrierung <Bildverarbeitung> (1)
- Relaxation Parameter Mapping in Magnetic Resonance Imaging (1)
- Relaxographie (1)
- Relaxography (1)
- Renewable energies (1)
- Repräsentation (1)
- Repulsion of organic molecules (1)
- Repulsion organischer Moleküle (1)
- Resonante Tunneldioden (1)
- Resonanztunneldiode (1)
- Resonator (1)
- Resonatoren (1)
- Resonators (1)
- Resorcin (1)
- Retrospective Motion Compensation (1)
- Retrospektive Bewegungskorrektur (1)
- Ringresonator (1)
- Rissbildung (1)
- Rissverlauf (1)
- Root s=7 (1)
- Root-S=13 TEV (1)
- Rotary EXcitation (REX) (1)
- Rotary Excitation (1)
- Ru(0001) (1)
- Ruthenium (1)
- Röngenbeugung (1)
- Röntgen-Weitwinkelstreuung (1)
- Röntgendetektor (1)
- Röntgendichroismus (1)
- Röntgenzirkulardichroismus (1)
- SANS (1)
- SARPES (1)
- SAXS (1)
- SEM (1)
- SENSE (1)
- SET (1)
- SET-Transistor (1)
- SHERPA (1)
- SMART (1)
- SQUID (1)
- SRTIO3 (1)
- STED-Mikroskopie (1)
- STO (1)
- STXM (1)
- SUSHI (1)
- Salmonella-typhimurium (1)
- Salzlösung (1)
- San Diego <Calif. (1)
- Saphir (1)
- Saturation (1)
- Sauerstoff (1)
- Sauerstoffbegasung (1)
- Sauerstofffehlstellen (1)
- Sb2Te3 (1)
- Scaffold fabrication (1)
- Scale (1)
- Scanning tunneling microscopy (1)
- Schattenmaske (1)
- Schichtsysteme (1)
- Schottky-Kontakt (1)
- Schwache Kopplung (1)
- Schwingungsphase (1)
- Schwingungszustand (1)
- Schüleraktivierung (1)
- Schülerversuch (1)
- Schülervorstellungen (1)
- Seeds (1)
- Sel-MQC (1)
- Selbst-Kalibrierung (1)
- Selbstbild (1)
- Selbstenergie (1)
- Selbstkonzept (1)
- Selbstnavigation (1)
- Self-assembly (1)
- Self-navigation (1)
- Self-organization (1)
- Seltene Erden (1)
- Seltenerdverbindungen (1)
- Semiconductor heterostrctures (1)
- Semiconductor laser (1)
- Semiconductors physics (1)
- Sendedioden (1)
- Sequenzentwicklung (1)
- Shapiro (1)
- Shockley–Read–Hall (1)
- Showers (1)
- Signal Formation (1)
- Silicium (1)
- Silicium Fehlstelle (1)
- Siliciumdioxid (1)
- Siliciumhalbleiter (1)
- Siliciumvakanz (1)
- Silicon Carbide (1)
- Silicon vacancy (1)
- Siliconsuboxide (1)
- Siliziumkarbid (1)
- Simulation methods and programs (1)
- Simultanbildgebung (1)
- Single Molecule Imaging (1)
- Single Molecule Localization Microscopy (1)
- Single Photon Sources (1)
- Single electron transfer (1)
- Single photon emission (1)
- Single-Molecule Transistor (1)
- Single-Photon (1)
- Single-Photon Detectors (1)
- Singlet Fission (1)
- Skalierung (1)
- Skyrmion (1)
- SmB\(_{6}\) (1)
- Soft matter (1)
- Soft-tissue infection (1)
- Sol-Gel-Prozess (1)
- Sol-Gel-Synthese (1)
- Solar Cell (1)
- Solar cell (1)
- Solar energy (1)
- Solar-Cell (1)
- Solartechnik (1)
- Sorption (1)
- Soybean seeds (1)
- Spatially resolved 2D spectroscopy (1)
- Spectroscopy (1)
- Speicher (1)
- Speicherelement (1)
- Speichertransistor (1)
- Spektrale Editierung (1)
- Spektrale Interferenz (1)
- Spektrales Lochbrennen (1)
- Spektromikroskopie (1)
- Spektroskopische Bildgebung (1)
- Spektroskopische Flussmessung (1)
- Spezifische Wärme (1)
- Spin Defekt (1)
- Spin Drehmoment (1)
- Spin Relaxation (1)
- Spin-Bahn-Kopplung (1)
- Spin-Echo (1)
- Spin-Hall-Effekt (1)
- Spin-Injektion (1)
- Spin-LED (1)
- Spin-Ladungs-Umwandlung (1)
- Spin-Lock (1)
- Spin-Orbit Coupling (1)
- Spin-Orbit-Torque (1)
- Spin-Phonon Kopplung (1)
- Spin-Polarisation (1)
- Spin-Transfer-Drehmoment (1)
- Spin-eins-System (1)
- Spin-orbit coupling (1)
- Spin-phonon coupling (1)
- Spindiffusion (1)
- Spindrehmoment Bauteil (1)
- Spinelectronic (1)
- Spinelektronik (1)
- Spinentropie (1)
- Spinflip-Streuung (1)
- Spinkette (1)
- Spinpolarisation (1)
- Spinpolarisierte Rastertunnelmikroskopie, Temperaturabhängige Phasenübergänge (1)
- Spinrelaxation (1)
- Spintronic (1)
- Spinventil (1)
- Spiral imaging (1)
- Spontaneous symmetry breaking (1)
- Sprödbruch (1)
- Spulen (1)
- Spulen-Array (1)
- Sputter deposition (1)
- Stabilisierung (1)
- Standardmodell (1)
- Standardmodell <Elementarteilchenphysik> (1)
- Staphylococcus aureus (1)
- States (1)
- Steifigkeit (1)
- Step Ru surface (1)
- Stiffness (1)
- Stochastische Resonanz (1)
- Storage (1)
- Stoßwelle (1)
- Strahlungskopplung (1)
- Strain (1)
- Strange Baryon Production (1)
- Strom-Spannungs-Kennlinie (1)
- Stromantwort (1)
- Strong interaction (1)
- Strontiumtitanat (1)
- Strontiumvanadate (1)
- Strukturbestimmung (1)
- Strukturbildung (1)
- Student-Lab (1)
- Störstelle (1)
- Störstellenverteilung (1)
- Subject (1)
- Suboxid (1)
- Subwavelength structures (1)
- Sugar-transport (1)
- Supercapacitor (1)
- Superconductor (1)
- Superkondensator (1)
- Superparamagnetic Iron Oxide (1)
- Superparamagnetische Eisenoxid Kontrastmittel (1)
- Superpartners (1)
- Superprisma (1)
- Superradiance & subradiance (1)
- Supersymmetrie (1)
- Supraleiter 2. Art (1)
- Surface (1)
- Surface Raman spectroscopy (1)
- Surface plasmon (1)
- Symmetrie (1)
- Symmetries (1)
- Systembau (1)
- Systems (1)
- Systole (1)
- T1 Relaxation (1)
- T1 quantification (1)
- T1-Relaxtion (1)
- T1-Wichtung (1)
- T1-mapping (1)
- T2* (1)
- T2*-Relaxation (1)
- TCSPC (1)
- TGRAPPA (1)
- THz (1)
- TI (1)
- TOSSI (1)
- TSC (1)
- TTF (1)
- TT\(_{1rho}\) mapping (1)
- T\(_{1P}\) dispersion (1)
- T\(_{1P}\) mapping (1)
- Table-top (1)
- Tageslichtelement (1)
- Tageslichtnutzung (1)
- Talbot–Lau interferometer (1)
- Tamm-Plasmonen (1)
- Tau leptons (1)
- Tauola (1)
- Tautomerisation (1)
- Teilchendetektor (1)
- Telekommunikation (1)
- Tensor (1)
- Tensor Tomography (1)
- Terahertz (1)
- Terahertz spectroscopy (1)
- Teststand (1)
- Theorie (1)
- Therapy (1)
- Thermodynamik (1)
- Thermoelektrischer Effekt (1)
- Thermoelektrischer Generator (1)
- Thermokraft (1)
- Thermometry (1)
- Thin film growth (1)
- Thin intermetallic films (1)
- Thiophen (1)
- Thiophenderivate (1)
- TiOPc (1)
- TiO\(_2\) (1)
- Tieftemperatur-Rastertunnelmikroskopie (1)
- Tieftemperaturphänomene (1)
- Tieftemperaturverhalten (1)
- Time hole (1)
- Time measurement (1)
- Time-domain NMR (1)
- Time-of-flight energy recording (1)
- Time-resolved photoemission electron microscopy (1)
- Time-resolved photoluminescence (1)
- To-leading order (1)
- Tool (1)
- Topolectrics (1)
- Topological Insulator (1)
- Topological Insulators (1)
- Topological insulator (1)
- Topological insulators (1)
- Topological metamaterial (1)
- Topological superconductivity (1)
- Topologische Laser (1)
- Topology (1)
- Trabekel (1)
- Tracking (1)
- Transient Electrical Methods (1)
- Transiente Absorptionsspektroskopie (1)
- Transitzeitmethode (1)
- Transmission <Physik> (1)
- Transmissionsmikroskopie (1)
- Transporteigenschaft (1)
- Transportmessung (1)
- Transverse-Momentum (1)
- Transverse-momentum (1)
- Traveling Wave Magnetic Particle Imaging (1)
- Triangular lattice (1)
- Tribenzotriquinacen (1)
- Triplett (1)
- Triticeae (1)
- Triticum aestivum (1)
- Tumors (1)
- Tunneldioden (1)
- Tunneleffekt (1)
- Tunneling spectroscopy (1)
- Tunnelkontakt (1)
- Tunnelkontakte (1)
- Tunnelspektroskopie (1)
- Turbo Spin-Echos (1)
- Twin Domains (1)
- Twin Suppression (1)
- Two-color pump-probe spectroscopy (1)
- Two-photon absorption (1)
- Two-photon polymerization (1)
- Type II quantum wells (1)
- Type-II quantum well (1)
- U-Wert (1)
- U-value (1)
- UHECR (1)
- URu2Si2 (1)
- UTE (1)
- UV-VIS (1)
- UV-VIS-Spektroskopie (1)
- Ulrakurze Echozeit (1)
- Ultrafast Spectroscopy (1)
- Ultrafast X-Ray Science (1)
- Ultrafast measurements (1)
- Ultrakurze Laserpulse (1)
- Ultrakurzer Lichtpuls (1)
- Ultrakurzzeit Spektroskopie (1)
- Ultrarelativistic Heavy-Ion (1)
- Ultraschnelle Informationsverarbeitung (1)
- Ultraschnelle Röntgenstrahlung (1)
- Ultraschneller Prozess (1)
- Ultrathin Transmission Target (1)
- Undersampling (1)
- Undulation (1)
- Unterabtastung (1)
- Ununterscheidbarkeit (1)
- Uran (1)
- VCAM (1)
- VCSEL (1)
- VEGF (1)
- VIDE (1)
- VIDED (1)
- VIP (1)
- VIS-Spektroskopie (1)
- Vacuum chambers (1)
- Vakuum (1)
- Vakuumisolationspanel (1)
- Vapor-liquid-solid (1)
- Vascular endothelial Growth Factor (1)
- Vcsels (1)
- Vektorboson (1)
- Vektorfeldformer (1)
- Vektorfeldkontrolle (1)
- Verglasung (1)
- Vergleich (1)
- Vergleichsstudie (1)
- Verstärker (1)
- Verstärkung (1)
- Verteilte Bragg-Reflexion (1)
- Vertikalresonator (1)
- Very strong coupling (1)
- Verzerrung (1)
- Videoanalyse (1)
- Viscosity (1)
- Vizinal (1)
- Volkov-Pankratov states (1)
- Volladdierer (1)
- Volume Reconstruction (1)
- Von-Willebrand-factor (1)
- Vortices (1)
- Vulkanologie (1)
- W & Z bosons (1)
- W(110) (1)
- W-Boson (1)
- WW (1)
- Wabengitter (1)
- Wachstum (1)
- Wachstumsprozess (1)
- Wasserfenster (1)
- Wassertransport (1)
- Waste Heat Recovery (1)
- Weak-Interactions (1)
- Weakly interacting massive particles (1)
- Wechselwirkung intensiver Laserpulse mit Materie (1)
- Weiche Materie (1)
- Wiedemann Franz law (1)
- Wiedemann-Franz-Gesetz (1)
- Wigner (1)
- Wigner-Verteilung (1)
- Winkel- und spin-aufgelöste Photoelektronenspektroskopie im harten Röntgenbereich (1)
- Winkelaufgelöste Photoelektronenspektroskopie (1)
- Winkelaufgelöste Photoemission mit harten Röntgenstrahlen (1)
- Winkelaufgelöste Photoemissionspektroskopie (1)
- Winkelaufgelöste Photoemissionsspektroskopie (1)
- Wire chambers (MWPC, Thin-gap chambers, drift chambers, drift tubes, proportional chambers etc) (1)
- Wurzel (1)
- Wärmeschutzverglasung (1)
- Wärmetransport (1)
- Würzburg / Sonderforschungsbereich Erkennung (1)
- X-Ray Dark-Field (1)
- X-ray (1)
- X-ray analysis (1)
- X-ray imaging (1)
- XANES (1)
- XAS (1)
- XPEEM (1)
- XSW (1)
- Xerogel (1)
- Xylem (1)
- Y-Schalter (1)
- YAG-Laser (1)
- Yu-Shiba-Rusinov-Zustände (1)
- Yukawa coupling (1)
- Zahnimplantat (1)
- Zahnmedizin (1)
- Zeitauflösung (1)
- Zerstörungsfreie Werkstoffprüfung (1)
- Zinc oxide (1)
- Zinn-dotiertes Indiumoxid (1)
- Zirkularpolarisation (1)
- ZnMnSe (1)
- ZnO (1)
- ZnSe heterostructure (1)
- ZnSe-Heterostruktur (1)
- ZnTe (1)
- Zwei-Photonen-Photoelektronenspektroskopie (1)
- Zwei-Photonen-Polymerisation (1)
- Zweiphotonen-Photoemissionsspektroskopie (1)
- Zweiphotonenabsorption (1)
- Zwillingsbildung (1)
- Zwischenschicht (1)
- \(\alpha\)-phase (1)
- \(\beta\)-phase (1)
- aberration (1)
- ablation (1)
- acceleration of particles (1)
- accumulation (1)
- acoustic surface plasmon (1)
- active learning (1)
- adaptive Kontrolle (1)
- adaptive Optimierung (1)
- adaptive Pulsformung (1)
- adaptive Quantenkontrolle (1)
- adaptive control (1)
- adaptive optics (1)
- adaptive pulse shaping (1)
- adiabatic modetransission (1)
- adsoption (1)
- adsorption-induced deformation (1)
- aerogel (1)
- aerogels (1)
- agreement (1)
- alloy (1)
- alloy Hubbard model (1)
- aluminum-zinc-oxide (1)
- alveolar (1)
- anatomical (1)
- anatomisch (1)
- anatomy (1)
- angle resolved photo emission spectroscopy (1)
- angle resolved photoemission spectroscopy (1)
- angle-resolved photoelectron spectroscopy (1)
- angle-resolved photoemission (1)
- angle-resolved photoemission spectroscopy (1)
- anorganic (1)
- anorganische geordnete Halbleiter (1)
- antiferromagnet (1)
- antimony (1)
- aorta (1)
- apolipoprotein-E (1)
- applied mathematics (1)
- approximation (1)
- aqueous solution (1)
- array (1)
- arterial elasticity (1)
- artificial synapse (1)
- associated production (1)
- association (1)
- astroparticle physics (1)
- atheriosclerosis (1)
- atmospheric aerosols (1)
- atmospheric chemistry (1)
- atom (1)
- atomar kleine Lücke (1)
- atomic and molecular spectroscopy, (1)
- atomic gases (1)
- atomic-scale gap (1)
- aufdruckbare Solarzellenfarbe (1)
- balanced steady state free precession (1)
- ballistic (1)
- ballistischer Transport (1)
- ballistisches Transport Regime (1)
- barium titanate (1)
- bathophenanthroline (1)
- binding energy (1)
- biochemical assays (1)
- bioelectrochemistry (1)
- biogeochemistry (1)
- biomaterials (1)
- biomedical engineering (1)
- bismuth (1)
- bistabiles Schalten (1)
- bistable switching (1)
- black carbon (1)
- black-blood (1)
- blazars (1)
- blood (1)
- blood flow (1)
- body weight (1)
- bone cement (1)
- bone imaging (1)
- boron (1)
- boron-nitride (1)
- boson (1)
- brain images (1)
- branched flow (1)
- breaking (1)
- bulk heterojunction (1)
- burried interfaces (1)
- calcium fluoride nanoparticles (1)
- calibration and fitting methods (1)
- calorimeter (1)
- camelina-sativa (1)
- cantilever-bending technique (1)
- capability (1)
- capacity (1)
- carbon nanotube (1)
- cardiac MRI (1)
- cardiac imaging (1)
- cardiac shunt (1)
- cardiac ventricles (1)
- cardiovascular system (1)
- carrier density (1)
- carrier transport (1)
- carrier-induced ferromagnetism (1)
- catalysis (1)
- catalyst (1)
- catheter tip (1)
- cationic lipid bilayer (1)
- cavity device (1)
- cavity polaritons (1)
- ce compounds (1)
- cell wall (1)
- central carbon metabolism (1)
- central metabolism (1)
- ceramic fibers (1)
- chalcogenide (1)
- chalcogenides (1)
- characterization (1)
- characterization and analytical techniques (1)
- charge (1)
- charge carrier generation (1)
- charge carrier transport in organic thin films (1)
- charge separation (1)
- charge transfer satellites (1)
- charge transfer state (1)
- charge transport (1)
- charged heavy long-lived particles (1)
- chargino (1)
- chemisorption (1)
- children (1)
- circular polarization (1)
- clinically isolated syndromes (1)
- cluster (1)
- cluster dynamical mean-field theory (1)
- cluster finding (1)
- coconut cocos-nucifera (1)
- coexistence (1)
- coherence (1)
- coherent control (1)
- coherent imaging (1)
- coherent light (1)
- coherent multidimensional spectroscopy (1)
- coherent potential approximation (1)
- coil (1)
- coil-array (1)
- collective excitation (1)
- color centers (1)
- color tuning (1)
- colour flow (1)
- communication (1)
- comparative study (1)
- complex‐valued machine learning (1)
- compound refractive X-ray lenses (1)
- compound semiconductor (1)
- computed tomography (CT) (1)
- condensed matter (1)
- condensed phase (1)
- condensed-matter physics (1)
- conductive hybrid (1)
- confinement (1)
- confocal microscopy (1)
- conjugated polymers (1)
- conjugation (1)
- contact force (1)
- contamination (1)
- contrast-enhanced (1)
- copper (1)
- coronary arteries (1)
- coronene (1)
- correction (1)
- correlated oxides (1)
- correlation (1)
- correlation function (1)
- correlation properties (1)
- cosmic rays (1)
- coulomb coupled quantum dots (1)
- coupler (1)
- coupling of gaseous and solid thermal conduction (1)
- coupling strength (1)
- coupling-constant dependence (1)
- covalent organic framework (1)
- crosslinked coating (1)
- cryo deposition (1)
- cryogenic temperature (1)
- crystal (1)
- crystal growth (1)
- crystalline (1)
- current response (1)
- current-current correlation (1)
- cystic fibrosis (1)
- dark matter (1)
- darkfield imaging (1)
- data augmentation (1)
- daylighting (1)
- decays (1)
- deep learning (1)
- deformation (1)
- delamination (1)
- delocalization (1)
- density functional calculations (1)
- density weighted imaging (1)
- density weighting (1)
- density-functional theory (1)
- dental implant (1)
- detected magnetic-resonance (1)
- developing oilseeds (1)
- developmental signaling (1)
- device arm (1)
- devices (1)
- devices for energy harvesting (1)
- dewatering (1)
- dfb-laser (1)
- diabolical points (1)
- diboson production (1)
- dichteangepasste k-Raum Abtastung (1)
- dielectric oxides (1)
- diffraction (1)
- diffusion tensor imaging (1)
- digital Lock-In (1)
- digitaler Lock-In (1)
- diindenoperylene (1)
- dilatometer (1)
- dilute magnetic semiconductors (1)
- dilute nitride (1)
- diluted magnetic Semiconductor (1)
- diluted magnetic semiconductors (1)
- diode laser (1)
- diphoton decay (1)
- diphoton events (1)
- disease (1)
- dispersion (1)
- distant dipolar field (1)
- distributions (1)
- disturbance (1)
- dot (1)
- downconversion (1)
- dreMR (1)
- dressed states (1)
- droplet epitaxy (1)
- dynamic imaging (1)
- dynamic light scattering (1)
- dynamic-iconic representation (1)
- dynamical mean field (1)
- dynamische Bildgebung (1)
- dynamische Lichtstreuung (1)
- dysfunction (1)
- dünne intermetallische Filme (1)
- e(+)e(-) Collisions (1)
- echo time (1)
- economic growth (1)
- edge states (1)
- eindimensionale Systeme (1)
- electrical excitation (1)
- electrically driven (1)
- electrically triggered (1)
- electrochemistry (1)
- electromagnetic calorimeter (1)
- electromagnon (1)
- electromigration (1)
- electron beam lithography (1)
- electron tunneling (1)
- electron-hole scattering (1)
- electron-vibration coupling (1)
- electronic and spintronic devices (1)
- electronic correlations (1)
- electronic coupling (1)
- electronic phase transitions (1)
- electronic structure of atoms and molecules (1)
- electronic transport (1)
- electronic transport in nanocrystalline materials (1)
- electronics, photonics and device physics (1)
- electrostatics (1)
- electroweak production (1)
- elektrische Anregung (1)
- elektronische Struktur (1)
- embryo (1)
- emphysema (1)
- emulsions (1)
- energetic jet (1)
- energies (1)
- energy storage (1)
- energy-dispersive (1)
- enhanced green fluorescent protein (1)
- ensemble modeling (1)
- entanglement (1)
- envelope function approximation (1)
- environmental sciences (1)
- epitaxial growth (1)
- epitaxial structures (1)
- epr spectroskopy (1)
- evolutionary optimization (1)
- evolutionärer Algorithmus (1)
- exchange (1)
- exciplexes (1)
- excitations (1)
- excited electrons (1)
- exciton binding energy (1)
- exciton blocking layer (1)
- exciton-polariton (1)
- exciton-polariton condensates (1)
- exciton‐polaritons (1)
- experimental and theoretical determination of electron density (1)
- experimental physics (1)
- explanatory videos (1)
- explosive volcanism (1)
- explosiver Vulkanismus (1)
- extrinsic (1)
- extrinsisch (1)
- facet (1)
- faceting (1)
- far-infrared spectroscopy (1)
- fatigue (1)
- femtosecond (1)
- femtosecond laser spectroscopy (1)
- femtosecond pulse shaping (1)
- femtosecond pulses (1)
- fermions (1)
- ferroelectricity (1)
- ferromagnet (1)
- ferromagnetic resonance (1)
- ferromagnetische Halbleiter (1)
- ferromagnetische Resonanz (1)
- ferromagnets (1)
- field free point (FFP) (1)
- field-effect transistor (1)
- films (1)
- flash memory (1)
- floating gate transistor (1)
- flow (1)
- flow dynamics (1)
- flow patterns (1)
- fluorescence (1)
- fluorescence imaging (1)
- fluorescence microscopy (1)
- fluorine (1)
- flux balance analysis (1)
- flux guides (1)
- flüssige Phase (1)
- four-wave mixing (1)
- fourier transform spectroscopy (1)
- fragmentation (1)
- fragmentation energy (1)
- fragmentation functions (1)
- free breathing (1)
- free electron laser (1)
- free respiration (1)
- free space (1)
- frequency combs (1)
- fs (1)
- full adder (1)
- full-field microscopy (1)
- fully hadronic (1)
- functional (1)
- functional magnetic resonance imaging (1)
- funktionell (1)
- funktionelle Lungenbildgebung (1)
- funktionelle MRT (1)
- g-Faktor (1)
- g-Wert (1)
- g-value (1)
- gain (1)
- galaxies: individual: NGC 1275 (1)
- galaxies: jets (1)
- gallium nitride (1)
- gallium phosphide (1)
- gamma gamma channel (1)
- gamma radiation (1)
- gamma-ray bursts (1)
- gamma-rays: galaxies (1)
- gapless Andreev bound states (1)
- gas adsorption (1)
- gasb (1)
- gekoppelte Kavitäten (1)
- geminale Rekombination (1)
- gene alleles (1)
- gene family evolution (1)
- gene-expression data (1)
- geometrische Struktur (1)
- geordnete Metalladsorbate auf Halbleiteroberflächen (1)
- glycine peptides (1)
- grain boundaries (1)
- grand unification (1)
- graphene (1)
- grating interferometer (1)
- grating interferometry (1)
- gravitational waves (1)
- group refractive index (1)
- growth (1)
- guidelines (1)
- h-dimerization (1)
- hadron colliders (1)
- hadronic Recoil (1)
- hadronic decays (1)
- hadronischer Rückstoß (1)
- half-Heusler (1)
- halfmetals (1)
- halogenation (1)
- hard double-patron interactions (1)
- hard x-ray photoemission (1)
- harmonic (1)
- heart rate (1)
- heat conversion (1)
- heat currents (1)
- heating (1)
- heavy fermion insulators (1)
- heralded entanglement (1)
- heterogen (1)
- heterogeneous (1)
- heteromolecular interfaces (1)
- heterorganic monolayer (1)
- heterostructures (1)
- heterotrophic arabidopsis cells (1)
- heterovalent heterointerfaces (1)
- hidden-beauty states (1)
- high contrast (1)
- high energy physics (1)
- high field (1)
- high field MRI (1)
- high field NMR (1)
- high harmonic generation (1)
- high power laser (1)
- high temperature (1)
- high temperature thermal insulation materials (1)
- high transverse momentum jets (1)
- high-energy collider experiment (1)
- high-harmonic generation (1)
- high-intensity laser-matter interaction (1)
- high-order finite element (1)
- high-order harmonic generation (1)
- high-power laser (1)
- high-speed photography (1)
- high-throughput (1)
- histology (1)
- hochauflösende Bildgebung (1)
- hochauflösende Elektronenbeugung (1)
- hole (1)
- hole-burning (1)
- hubbard-model (1)
- hybrid imaging (1)
- hydrocarbons (1)
- hydrogen (1)
- hyperpolarized HE-3 (1)
- illumination (1)
- image processing (1)
- image quality (1)
- image reconstruction (1)
- imaging agents (1)
- imaging and sensing (1)
- imaging techniques (1)
- impact experiments (1)
- impedance spectroscopy (1)
- impurities (1)
- in vivo MR-Spektroscopy (1)
- in-line phase contrast (1)
- in-situ (1)
- inclusive cross section (1)
- inctracellular (1)
- indium phosphide (1)
- indium-tin oxide (1)
- induced (1)
- induced phase transition (1)
- induced superconductivity (1)
- infants (1)
- infarct (1)
- infarction (1)
- infection (1)
- inorganic LEDs (1)
- instrumentation (1)
- insulator (1)
- integral (1)
- integrated circuits (1)
- integrated optics (1)
- interband cascade laser (1)
- interface conductivity (1)
- interface properties (1)
- interfaces (1)
- intermixing (1)
- intermolecular zero-quantum coherence (1)
- interplay of surface states (1)
- intersubband resonance (1)
- intrazellulär (1)
- intrinsic (1)
- intrinsisch (1)
- ion-specific effects (1)
- ionenspezifische Effekte (1)
- iron oxide contrast agent (1)
- iron pnictides (1)
- isomerization (1)
- jet energy scale (1)
- jet production (1)
- jet shapes (1)
- jets (1)
- josephson junction (1)
- kagome lattice (1)
- kardiale MRT (1)
- keV (1)
- keramische Fasern (1)
- kinematics (1)
- kink instability (1)
- komplexe Gitterkopplung (1)
- kondensierte Phase (1)
- konjugiert (1)
- laboratory (1)
- lamellar micelles (1)
- large artery vasculitis (1)
- large optical cavity (1)
- laser (1)
- laser array (1)
- laser physics (1)
- lasers (1)
- lasing (1)
- latent heat (1)
- lead-lead collision (1)
- learning (1)
- lesion size (1)
- lesions (1)
- lifetimes (1)
- lift-off (1)
- light (1)
- light matter coupling (1)
- light scattering and absorption (1)
- light sources (1)
- light-matter interaction (1)
- light–matter interaction (1)
- lineage-specific genes (1)
- linear combination (1)
- lipid biosynthesis (1)
- lipid imaging (1)
- liquid cell (1)
- liquid phase (1)
- liquid-metal-jet (1)
- liquid-metal-jet anode X-ray source (1)
- liquids (1)
- local density (1)
- local supersymmetry (1)
- localized surface plasmon (1)
- lodging resistance; (1)
- long-lived neutral particle (1)
- longitudinal relaxation (1)
- low-emissivity coating (1)
- low-temperature magnetotransport (1)
- low-valent compounds (1)
- mCherry (1)
- magnesium phosphate (1)
- magnetic (1)
- magnetic dopants (1)
- magnetic field relaxation (1)
- magnetic nanoparticles (1)
- magnetic oxide (1)
- magnetic properties (1)
- magnetic resonance imaging (MRI) (1)
- magnetic semiconductors (1)
- magnetic sensor (1)
- magnetic topological insulator (1)
- magnetic-resonance behavior (1)
- magnetische Anisotropie (1)
- magnetization (1)
- magnetized sphere/cylinder (1)
- magneto optics (1)
- magneto-optical properties (1)
- magnetometry (1)
- magnetoresistance (1)
- magnetoresistive effect (1)
- magnetoresistiver Effekt (1)
- magnetotransport (1)
- maize kernels (1)
- mapping function (1)
- maser (1)
- mass spectrocopy (1)
- materials design (1)
- materials science (1)
- matrix element effects (1)
- mbe (1)
- mean-field theory (1)
- mechanic (1)
- mechanical stiffness (1)
- mechanische Steifigkeit (1)
- mechanisms (1)
- medical device (1)
- medical imaging (1)
- melt electrowriting (1)
- membrane tension (1)
- membrane viscosity (1)
- memristive Funktionen (1)
- memristive functions (1)
- mercury (1)
- mesoscopic transport (1)
- mesoskopisch (1)
- mesoskopischer Transport (1)
- metabolism (1)
- metal surfaces (1)
- metal-insulator transition (1)
- metal-organic (1)
- metal-to-insulator transition (1)
- metall-organisch (1)
- metals (1)
- methanofullerenes (1)
- micro cavity (1)
- micro pattern gaseous detectors (1)
- micro-optics (1)
- micro-photoluminescence (1)
- microlaser (1)
- micromegas detectors (1)
- microresonator (1)
- microresonators (1)
- microscope (1)
- microstructure (1)
- microtomography (1)
- mid-infrared (1)
- mid-infrared sensing (1)
- mid-infrared wavelength applications (1)
- milling process (1)
- mixing state (1)
- mo (1)
- mobility (1)
- mode (1)
- mode matching (1)
- mode matching method (1)
- model Bessel function (1)
- model calculation (1)
- modeling (1)
- modelling (1)
- moisture (1)
- molecular Dynamics (1)
- molecular contacts (1)
- molecular doping (1)
- molecular electronics (1)
- molecular imaging (1)
- molecular movie (1)
- molecular transport (1)
- molecule (1)
- molecule-metal interfaces (1)
- molekulare Dynamik (1)
- molekulare Elektronik (1)
- mono-mode laser (1)
- monodispersity (1)
- monolayers (1)
- monolithic grating (1)
- monomodige Laser (1)
- morphometry (1)
- motivation (1)
- mott insulator (1)
- mouse models (1)
- mram (1)
- multi-messenger physics (1)
- multi-spin flip (1)
- multi-terminal devices (1)
- multichromophores (1)
- multiferroics (1)
- multifunctional nanoparticles (1)
- multilayer (1)
- multimodal imaging (1)
- multiple Botenteilchen (1)
- muon (1)
- muon spectrometer (1)
- muons (1)
- muscle fiber (1)
- myocardial infarction (1)
- n-doping (1)
- nano CT (1)
- nano-CT (1)
- nanoactivity (1)
- nanoantenna (1)
- nanoelectronic (1)
- nanoelectronics (1)
- nanographenes (1)
- nanolithography (1)
- nanoparticle (1)
- nanophotonics (1)
- nanoscale devices (1)
- nanoscience and technology (1)
- nanostructured (1)
- narrow-gap semiconductor (1)
- near-IR chromophores (1)
- near-field optics (1)
- near-gap spectra (1)
- near-infrared spectroscopy (1)
- neural networks (1)
- neutralino (1)
- neutron reflectometry (1)
- new physics (1)
- nexafs (1)
- nicht-diagonale langreichweitige Ordnung (1)
- nichtgeminale Rekombination (1)
- nichtkarthesische Bildgebung (1)
- nichtlinearer Magnetotransport (1)
- niederdimensionale Elektronensysteme (1)
- niedrigemittierende Beschichtung (1)
- noise and multimode dynamics (1)
- non-Cartesian imaging (1)
- non-Cartesian trajectories (1)
- non-classical light (1)
- non-destructive testing (1)
- non-triggered (1)
- nondestructive testing (1)
- nonlinear dynamics (1)
- nonlinear magnetotransport (1)
- nonlinear optics (1)
- nonlinear spectroscopy (1)
- non‐fullerene acceptors (1)
- ntcda (1)
- nuclear magnetic resonance imaging (1)
- nuclear magnetic resonance spectroscopy (1)
- nuclear power (1)
- number (1)
- obstructive pulmonary disease (1)
- occupation number fluctuations (1)
- oil storage (1)
- oilseeds (1)
- oligo-DNA (1)
- oncolytic viruses (1)
- one-dimensional (1)
- one-dimensional systems (1)
- open circuit voltage (1)
- optical (1)
- optical antenna (1)
- optical antennas (1)
- optical lattice (1)
- optical materials and structures (1)
- optical polarization conversion (1)
- optical resonator (1)
- optics (1)
- optimale Teilchendurchmesser (1)
- optimum particle diameter (1)
- optisch (1)
- opto electronics (1)
- optoelectronic devices (1)
- optoelektronische Bauelemente (1)
- orbital imaging (1)
- orbital tomography (1)
- organic bulk heterojunction solar cell (1)
- organic field-effect transistor (1)
- organic molecules (1)
- organic semicondcutors (1)
- organic thin-films (1)
- organic thin‐film transistors (1)
- organic-inorganic hybrid nanostructures (1)
- organic-metal interfaces (1)
- organic–metal interface (1)
- organische Solarzellen (1)
- organische ungeordnete Halbleiter (1)
- oscillating biomagnetic fields (1)
- oscillator strengths (1)
- output elasticities (1)
- oxide (1)
- oxide heterostructure (1)
- oxide heterostructures (1)
- oxides (1)
- oxidische Heterostruktur (1)
- oxygen-enhanced (1)
- p-Halbleiter (1)
- pair potentials (1)
- pair production (1)
- paramagnetic resonance (1)
- parity (1)
- particle (1)
- partition noise (1)
- partizipierende Medien (1)
- passivation (1)
- patterning (1)
- pentacene (1)
- performance (1)
- perovskite solar cells (1)
- perovskites (1)
- perylene dyes (1)
- phase change material (1)
- phase coherence (1)
- phase contrast (1)
- phase contrast imaging (1)
- phase dynamics (1)
- phase retarder (1)
- phase stepping (1)
- phase transition (1)
- phase transitions and critical phenomena (1)
- phase-change (1)
- phase-contrast CMR (1)
- phase-contrast MRI (1)
- phase-space-representation (1)
- phased (1)
- phased-array (1)
- phasematching (1)
- phenolic resin (1)
- phonon (1)
- phosphorescence (1)
- phosphorus (1)
- photo-CELIV (1)
- photochemical air-pollution (1)
- photoelectron spectrocsopy (1)
- photoelectron spectrscopy (1)
- photoinduced transport (1)
- photoinduzierter Transport (1)
- photoluminescence excitation (1)
- photoluminescence spectroscopy (1)
- photon (1)
- photon bunching (1)
- photon counting (1)
- photon lasing (1)
- photonic crystal (1)
- photonic crystals (1)
- photonic dot (1)
- photonics (1)
- photonische Kristalle (1)
- photonischer Punkt (1)
- photon‐correlation (1)
- photoreflectance (1)
- photosensor (1)
- physical characterisation (1)
- physical chemistry (1)
- physical sciences (1)
- physical time (1)
- physics education (1)
- physics transition (1)
- pi-conjugated (1)
- pinned orbital moments (1)
- plant reproduction (1)
- plant roots (1)
- plaque (1)
- plaque characteristics (1)
- plasmon (1)
- plasmon group velocity (1)
- plasmonic waveguides (1)
- plasmons (1)
- point emitters (1)
- polarition condensate (1)
- polariton (1)
- polariton condensation (1)
- polariton laser (1)
- polarization (1)
- polarization pulse shaping (1)
- polaron delocalization (1)
- polyacene (1)
- polymer electrolytes (1)
- polymer thermoelectrics (1)
- polymers (1)
- population inversion (1)
- population oscillations (1)
- pore size (1)
- porous (1)
- porös (1)
- post-processing (1)
- power gain (1)
- pp collisions (1)
- pre-service teachers (1)
- prebolus (1)
- prefrontal cortex (1)
- printed paper photovoltaics (1)
- processing (1)
- professional vision (1)
- program (1)
- proton (1)
- proton MRI (1)
- proton-lead collision (1)
- proton-proton-collisions (1)
- proton-proton-collistion (1)
- proton-prton-collision (1)
- proximity effect (1)
- pulse-wave velocity (1)
- pulsed ODMR (1)
- pulswave velocity (1)
- pyrolysis (1)
- quantitative MRI (1)
- quantitative computed tomography (1)
- quantitative epr (1)
- quantized vortices (1)
- quantum Monte Carlo (1)
- quantum billiard (1)
- quantum communication (1)
- quantum communications (1)
- quantum dash (1)
- quantum dot systems (1)
- quantum gases (1)
- quantum information technology (1)
- quantum interference (1)
- quantum mechanical coupling (1)
- quantum mechanics (1)
- quantum metrology (1)
- quantum optics in semiconductors (1)
- quantum repeaters (1)
- quantum sensing (1)
- quantum spin Hall effect (1)
- quantum transport (1)
- quantum wire (1)
- quantum-dots (1)
- quantum-well -wire and -dot devices (1)
- quantum-well laser (1)
- quantumcascade laser (1)
- quasi-one-dimensional organic metals (1)
- radiation (1)
- radiation transport (1)
- radiative coupling (1)
- radical (1)
- radio continuum: galaxies (1)
- radioactive waste (1)
- radiofrequency ablation (1)
- ray (1)
- reaction cross section (1)
- rectification (1)
- redispergierte Nanopartikel-Sole (1)
- redispersed nanoparticle sol (1)
- registration (1)
- repositories (1)
- resistance (1)
- resistive micromegas (1)
- resolution enhancement (1)
- resonance (1)
- resonances (1)
- resonant inelastic x-ray scattering (1)
- resonant scattering (1)
- resonant tunneling (1)
- resonant tunneling diodes (1)
- resonante Streuung (1)
- resonante Tunneldioden (1)
- resonator (1)
- resonators (1)
- retrospective (1)
- robust (1)
- rotating magnetic field (1)
- s-Channel (1)
- s-shape (1)
- sFLIM (1)
- saccharomyces cerevisiae (1)
- saccotomy (1)
- salt solutions (1)
- samarium hexaboride (1)
- sapwood (1)
- scanning (1)
- scanning electron microscopy (1)
- scattering characteristics (1)
- secondary phases (1)
- seed (1)
- seed aging (1)
- seed quality (1)
- seeds (1)
- selected area growth (1)
- selective multiple quantum filter (1)
- selektiver Mehrquantenfilter (1)
- self-assembled monolayer (SAM) (1)
- self-assembly (1)
- self-calibration (1)
- self-concept (1)
- self-diffusion (1)
- self-gating (1)
- self-navigation (1)
- semi-magnetic (1)
- semiconductor microavity (1)
- semiconductor surfaces (1)
- semileptonic & radiative decays (1)
- semimagnetic semiconductor (1)
- semimagnetisch (1)
- shape-truncation functions (1)
- shear viscosity (1)
- shocks (1)
- side-peak emission (1)
- single crystal (1)
- single crystalline (1)
- single electron transport (1)
- single molecule microscopy (1)
- single photon (1)
- single photons and quantum effects (1)
- single quantum dot (1)
- single top quark (1)
- single-crystalline Ru surfaces (1)
- single-electron tunneling (1)
- single-photon detectors (1)
- single-photon source (1)
- single-top-quarks (1)
- singlet (1)
- site-controlled (1)
- site-controlled quantum dot (1)
- site-controlled quantum dots (1)
- small animal (1)
- soft x-ray (1)
- soft x-ray photoemission (1)
- software (1)
- sol gel (1)
- sol-gel process (1)
- sol-gel-technology (1)
- solar cell (1)
- solar glazing (1)
- solid state physics (1)
- solid support (1)
- solitons (1)
- sorption (1)
- spatially resolved photoluminescence (1)
- specific heat (1)
- spectra (1)
- spectral editing (1)
- spectral interferometry (1)
- spectroscopic imaging (1)
- spektroskopie (1)
- spezifische Absorptionsrate (1)
- spin Hall effect (1)
- spin Injektion (1)
- spin dephasing (1)
- spin entropy (1)
- spin label (1)
- spin labeling (1)
- spin lock (1)
- spin physics (1)
- spin relaxation (1)
- spin torque (1)
- spin torque device (1)
- spin transport (1)
- spin valve (1)
- spin-flip Raman spectroscopy (1)
- spin-lock (1)
- spin-orbit-coupling (1)
- spin-orbit-interaction (1)
- spin-orbit-torque (1)
- spin-phonon coupling (1)
- spin-resolved ARPES (1)
- spin-transfer torque (1)
- spindiffusion (1)
- spindynamic (1)
- spindynamics (1)
- spinflip scattering (1)
- spinpolarized scanning tunneling microscopy, temperature dependent phase transitions (1)
- spintronic (1)
- spintronik (1)
- spoiled gradient echo (1)
- standard semiconductor laser (1)
- standing wave formation (1)
- steady-state free precession (1)
- steam (1)
- stehende Röntgenwellenfelder (1)
- stenosis (1)
- steps (1)
- stimulated (1)
- stimulated echo (1)
- stimulated emission (1)
- stimuliertes Echo (1)
- structure determination (1)
- students' conceptions (1)
- sub-micron (1)
- sub-mikrometer (1)
- subcutaneous implanation (1)
- sucrose allocation (1)
- super-resolution (1)
- super-resolution microscopy (1)
- superconductors (1)
- supercritical CO<sub>2</sub> (1)
- supercurrent (1)
- superfluid (1)
- supergauge transformations (1)
- superparamagnetische Eisenoxid Kontrastmittel (1)
- superprism (1)
- superradiance (1)
- superradiant pulse emission (1)
- supersymmetry (1)
- surface (1)
- surface collisions (1)
- surface morphology (1)
- surface plasmon (1)
- surface preparation (1)
- surface roughness (1)
- surface stress (1)
- surgical and invasive medical procedures (1)
- sustainable energy source (1)
- symmetries (1)
- synthesis (1)
- synthetic MRI (1)
- system (1)
- tapered laser (1)
- tapers (1)
- targeted metabolite profiling (1)
- tau leptons (1)
- tautomerization (1)
- technological constraints (1)
- telecommunication spectral range (1)
- telescope (1)
- telluride (1)
- temperature (1)
- temporal bone (1)
- ternary organic solar cells (1)
- test facility (1)
- thermal barrier coating (1)
- thermal devices (1)
- thermal gating (1)
- thermal insulation (1)
- thermoelectric characterization (1)
- thermoelectric generator (1)
- thermoelectric generators (1)
- thin film (1)
- thin-film transistors (1)
- thorax (1)
- three terminal device (1)
- thulium telluride (1)
- time (1)
- time hole (1)
- time inhomogeneities (1)
- time resolved (1)
- time-of-flight mass spectrometry (1)
- time-resolved (1)
- time-resolved photoluminescence (1)
- timeresolved spectroscopy (1)
- tissue (1)
- tissue characterization (1)
- tomographic imaging method (1)
- tomography (1)
- top quark (1)
- top quark mass (1)
- top quarks (1)
- top-quark (1)
- top-quark mass (1)
- topological (1)
- topological analysis (1)
- topological magnetoelectric effect (1)
- topological materials (1)
- topological superconductor (1)
- topological surface states (1)
- topological transitions (1)
- topologische Analyse (1)
- total energy (1)
- trARPES (1)
- transfer dynamics (1)
- transiente Absorption (1)
- transiente absorption spectroscopy (1)
- transition metal (1)
- transition metal dichalcogenide (1)
- transition metal oxides (1)
- transmission microscopy (1)
- transport gap (1)
- transport measurement (1)
- transport spectroscopy (1)
- transverse energy–energy correlation function (1)
- transverse relaxation (1)
- trap (1)
- trap distribution (1)
- trap states (1)
- trapped atoms/ions (1)
- triangular lattice (1)
- triplet excitons (1)
- triplets (1)
- tryptophan (1)
- tunable laser (1)
- tunnel contacts (1)
- tunneling diodes (1)
- twin suppression (1)
- two photon interference (1)
- two-dimensional electron gas (1)
- two-dimensional spectroscopy (1)
- two-photon absorption (1)
- type II GaIn(As)Sb/GaSb (1)
- type II quantum wells (1)
- ultra high vacuum (1)
- ultra-short laser pulses (1)
- ultracold (1)
- ultrafast (1)
- ultrafast optics (1)
- ultrafast photonics (1)
- ultrafast spectroscopy (1)
- ultrakurz (1)
- ultraschnell (1)
- ultraschnelle Optik (1)
- ultrashort (1)
- ultraviolet photoelectron spectroscopy (1)
- undulation (1)
- up-conversion (1)
- vacancies (1)
- vacuum insulation panel (1)
- vapor-liquid-solid (1)
- variability (1)
- variable density sampling (1)
- vasa vasorum (1)
- vascular cell adhesion molecules (1)
- vascular surgery (1)
- vaskuläre Adhäsionsmoleküle (1)
- vector-field control (1)
- vector-field shaper (1)
- vector-like quarks (1)
- ventilation (1)
- verborgene Grenzflächen (1)
- verdünnte Nitride (1)
- vertebral artery (1)
- vertical (1)
- vertikal (1)
- vestibular aqueduct (VA) (1)
- vibronic electronic excitation (1)
- vicinal (1)
- video analysis (1)
- vis spectroscopy (1)
- water (1)
- water oxidation (1)
- water window (1)
- wavefront (1)
- waveguide (1)
- weak ferromagnetism (1)
- weit abstimmbare Laser (1)
- weite Abstimmbarkeit (1)
- well (1)
- wells (1)
- widely tunable laser (1)
- winkelaufgelöste Photoelektronenspektroskopie (1)
- wires (1)
- worm-like micelles (1)
- wässrige Lösung (1)
- x-ray absorption spectroscopy (1)
- x-ray diffraction (1)
- x-ray emission spectroscopy (1)
- x-ray imaging (1)
- x-ray inline phase contrast (1)
- x-ray magnetic circular dichroism (1)
- x-ray micro computed tomography (1)
- x-ray microscopy (1)
- x-ray spectroscopy (1)
- x-rays (1)
- xerogel (1)
- xylem cavitation (1)
- zeitafgelöst (1)
- zeitaufgelöste Spektroskopie (1)
- zone plate (1)
- zweidimensional (1)
- Übergangsmetalldichalkogenide (1)
- Überstruktur (1)
- √s=8 TeV (1)
Institute
- Physikalisches Institut (816) (remove)
Sonstige beteiligte Institutionen
- Wilhelm-Conrad-Röntgen-Forschungszentrum für komplexe Materialsysteme (4)
- Universitätsklinikum Würzburg (3)
- Röntgen Center for Complex Material Systems (RCCM), Am Hubland, 97074 W¨urzburg, Germany (2)
- ATLAS Collaboration (1)
- Arizona State University, Tempe, Arizona, USA (1)
- Bavarian Center for Applied Energy Research (ZAE Bayern), 97074 Würzburg, Germany (1)
- Bavarian Center for Applied Energy Research e.V. (ZAE Bayern) (1)
- Bayerisches Zentrum für Angewandte Energieforschung e.V. (1)
- Biomedizinische NMR Forschungs GmbH am Max-Planck-Institut fuer biophysikalische Chemie (1)
- CERN (1)
ResearcherID
- D-1250-2010 (1)
- N-7500-2014 (1)
Growth, ageing and atherosclerotic plaque development alter the biomechanical forces acting on the vessel wall. However, monitoring the detailed local changes in wall shear stress (WSS) at distinct sites of the murine aortic arch over time has been challenging. Here, we studied the temporal and spatial changes in flow, WSS, oscillatory shear index (OSI) and elastic properties of healthy wildtype (WT, n = 5) and atherosclerotic apolipoprotein E-deficient (Apoe\(^{−/−}\), n = 6) mice during ageing and atherosclerosis using high-resolution 4D flow magnetic resonance imaging (MRI). Spatially resolved 2D projection maps of WSS and OSI of the complete aortic arch were generated, allowing the pixel-wise statistical analysis of inter- and intragroup hemodynamic changes over time and local correlations between WSS, pulse wave velocity (PWV), plaque and vessel wall characteristics. The study revealed converse differences of local hemodynamic profiles in healthy WT and atherosclerotic Apoe\(^{−/−}\) mice, and we identified the circumferential WSS as potential marker of plaque size and composition in advanced atherosclerosis and the radial strain as a potential marker for vascular elasticity. Two-dimensional (2D) projection maps of WSS and OSI, including statistical analysis provide a powerful tool to monitor local aortic hemodynamics during ageing and atherosclerosis. The correlation of spatially resolved hemodynamics and plaque characteristics could significantly improve our understanding of the impact of hemodynamics on atherosclerosis, which may be key to understand plaque progression towards vulnerability.
Single molecule localization microscopy has seen a remarkable growth since its first
experimental implementations about a decade ago. Despite its technical challenges,
it is already widely used in medicine and biology and is valued as a unique tool
to gain molecular information with high specificity. However, common illumination techniques do not allow the use of single molecule sensitive super-resolution
microscopy techniques such as direct stochastic optical reconstruction microscopy
(dSTORM) for whole cell imaging. In addition, they can potentially alter the
quantitative information.
In this thesis, I combine dSTORM imaging in three dimensions with lattice lightsheet illumination to gain quantitative molecular information from cells unperturbed by the illumination and cover slip effects. Lattice light-sheet illumination
uses optical lattices for beam shaping to restrict the illumination to the detectable
volume. I describe the theoretical background needed for both techniques and detail
the experimental realization of the system as well as the software that I developed
to efficiently evaluate the data.
Eventually, I will present key datasets that demonstrate the capabilities of the
developed microscope system with and without dSTORM. My main goal here was
to use these techniques for imaging the neural cell adhesion molecule (NCAM, also
known as CD56) in whole cells. NCAM is a plasma membrane receptor known to
play a key role in biological processes such as memory and learning. Combining
dSTORM and lattice light-sheet illumination enables the collection of quantitative
data of the distribution of molecules across the whole plasma membrane, and shows
an accumulation of NCAM at cell-cell interfaces. The low phototoxicity of lattice
light-sheet illumination further allows for tracking individual NCAM dimers in living cells, showing a significant dependence of its mobility on the actin skeleton of
the cell.
3d-Übergangsmetallphthalocyanin-Moleküle auf Metalloberflächen: Der Einfluss der d-Orbitalbesetzung
(2015)
Im Rahmen dieser Dissertation wird die Untersuchung von 3d-Übergangsmetallphthalocyanin- Molekülen (ÜMPc) – quadratisch-planaren organischen Molekülen, welche im Zentrum ein 3d-Übergangsmetallion besitzen – auf metallischen Oberflächen vorgestellt. Der Fokus dieser Arbeit liegt dabei auf dem Einfluss der d-Orbitalbesetzung auf die magnetischen, elektronischen und strukturellen Eigenschaften der adsorbierten Moleküle, die mit Hilfe der Rastertunnelmikroskopie und -spektroskopie charakterisiert wurden. Die gewonnen Ergebnisse werden zum Teil mit theoretischen Berechnungen analysiert und interpretiert.
Die erste Hälfte der experimentellen Auswertung behandelt die Untersuchung dieser Moleküle auf Ag(001) in Hinblick auf die Existenz einer magnetischen Wechselwirkung, bei der ein unkompensiertes magnetisches Moment des Moleküls durch die Substratelektronen abgeschirmt wird. Dieser Effekt wird als Kondo-Abschirmung bezeichnet und erzeugt in der Zustandsdichte des Moleküls eine Resonanz am Fermi-Niveau. Die Messungen zeigen, dass diese Resonanz ausschließlich am Zentralion von MnPc vorgefunden wird, wohingegen sie bei allen anderen 3d-Übergangsmetallphthalocyanin-Molekülen, die eine höhere d-Orbitalbesetzung besitzen, nicht vorhanden ist. Anhand theoretischer Berechnungen kann die Ursache für dieses Verhalten darauf zurückgeführt werden, dass von allen d-Orbitalen einzig das dz2-Orbital mit dem Substrat geeignet hybridisiert, um eine Kondo-Abschirmung zu erzeugen. Da ausschließlich MnPc einen unkompensierten Spin in diesem Orbital besitzt, kann die An- bzw. Abwesenheit
des Kondo-Effekts auf die unterschiedliche Besetzung des dz2-Orbitals zurückgeführt werden. Neben der eben erwähnten Kondo-Resonanz ist bei MnPc ein weiteres Merkmal am Fermi- Niveau überlagert. Durch die Analyse der räumlichen Verteilung, den Vergleich mit anderen Molekülen und der Manipulation des MnPc-Moleküls kann gezeigt werden, dass es sich bei diesem Merkmal um einen d-Orbitalzustand handelt. Die Manipulation des Moleküls durch gezieltes Entfernen von Wasserstoffatomen ermöglicht darüber hinaus die Stärke der Kondo-Abschirmung zu beeinflussen.
In der zweiten Hälfte der experimentellen Auswertung werden Moleküle auf bismutinduzierten Oberflächenlegierungen der Edelmetalle Cu(111) und Ag(111) untersucht. Diese Legierungen zeichnen sich durch einen ausgeprägten Rashba-Effekt aus, der durch eine Aufspaltung der Parabeldispersion und Aufhebung der Spin-Entartung im zweidimensionalen Elektronengas der Oberflächenlegierung charakterisiert ist. Das Wachstumsverhalten von CuPc und MnPc auf diesen Oberflächen zeigt ein sehr gegensätzliches Verhalten. Während bei MnPc die Substrat-Molekül-Wechselwirkung dominant ist, wodurch diese Moleküle immer einen festen Adsorptionsplatz auf der Oberfläche besitzen, ist diese Wechselwirkung bei CuPc schwach ausgeprägt. Aus diesem Grund wandern die CuPc-Moleküle zu den Stufenkanten und bilden Cluster. Das unterschiedliche Wachstumsverhalten der Moleküle lässt sich auf die partiell-gefüllten d-Orbitale von MnPc zurückführen, die aus der Molekülebene ragen, mit dem Substrat hybridisieren und damit das Molekül an das Substrat binden. Bei CuPc hingegen sind diese d-Orbitale gefüllt und die Hybridisierung kann nicht stattfinden.
Im letzten Abschnitt werden die elektronischen und magnetischen Eigenschaften von MnPc auf diesen Substraten behandelt, die einige Besonderheiten aufweisen. So bildet sich durch die Adsorption des Moleküls auf den Oberflächen eine Grenzschichtresonanz aus, die eine partielle Füllung erkennen lässt. Spektroskopiedaten, aufgenommen am Ort der Grenzschichtresonanz, weisen eine symmetrisch um das Fermi-Niveau aufgespaltene Resonanz auf. Die Intensität der unter- und oberhalb der Fermi-Energie befindlichen Resonanz zeigen dabei ein komplementäres Verhalten bzgl. der jeweiligen Lage auf der Grenzschichtresonanz: An den Orten, an denen die Resonanz unterhalb des Fermi-Niveaus ihre maximale Intensität besitzt, ist die Resonanz oberhalb des Fermi-Niveaus nicht vorhanden und umgekehrt. Diese experimentellen Beobachtungen werden mit einem Modellansatz erklärt, welcher die Wirkung eines effektiven Magnetfeldes und eine Spin-Filterung postuliert.
The Josephson effect describes the generic appearance of a supercurrent in a weak link between two superconductors. Its exact physical nature deeply influences the properties of the supercurrent. In recent years, considerable efforts have focused on the coupling of superconductors to the surface states of a three-dimensional topological insulator. In such a material, an unconventional induced p-wave superconductivity should occur, with a doublet of topologically protected gapless Andreev bound states, whose energies vary 4π-periodically with the superconducting phase difference across the junction. In this article, we report the observation of an anomalous response to rf irradiation in a Josephson junction made of a HgTe weak link. The response is understood as due to a 4π-periodic contribution to the supercurrent, and its amplitude is compatible with the expected contribution of a gapless Andreev doublet. Our work opens the way to more elaborate experiments to investigate the induced superconductivity in a three-dimensional insulator.
Im Rahmen dieser Arbeit sollten die Möglichkeiten der MR Tomographie erkundet werden bakterielle Infektionen im Zeitverlauf darzustellen. Genauer gesagt sollte das Potential der MR Tomographie anhand eines durch eine Infektion induzierten lokalisierten Abszesses unter Verwendung dreier unterschiedlicher MRT Methoden untersucht werden: Mittels nativem \(T_2\) Kontrast; der Verwendung von superparamagnetischen Eisenoxid Partieln (USPIO) als \(T_2^*\) Kontrastmittel; und dem Einsatz von Perfluorkarbonen (PFC) als \(^{19}F\) MRT Marker (siehe Kapitel 3).
Wie erwartet führte die durch die Infektion hervorgerufene Entzündung zu veränderten \(T_2\)-Zeiten, welche auf \(T_2\)-gewichteten MR Bildern eine Lokalisierung des Abszessbereiches erlauben. Jedoch eigneten sich diese Daten aufgrund der graduellen Änderung der \(T_2\)-Zeiten nicht, um eine klare Grenze zwischen Abszess und umliegendem Gewebe zu ziehen.
Superparamagnetische Eisenoxidpartikel andererseit haben als MRT Kontrastmittel bereits in den letzten Jahren ihre Fähigkeit unter Beweis gestellt Entzündungen [53, 58, 64] darzustellen. Die Anreicherung dieser Partikel am Rande des Abszesses [53], wie sie auch in unseren MR Daten zu beobachten war, erlaubte eine relativ scharfe Abgrenzung gegenüber dem umgebenden Gewebe in der chronischen Phase der Infektion (Tag 9 p.i.). Hingegen genügte die nur sehr spärlichen Anreicherung von USPIO Partikeln in der akuten Phase der Infektion (Tag 3 p.i.) nicht für eine entsprechende Abgrenzung [58].
Aufgrund der sehr geringen biologischen Häufigkeit und den sehr kurzen Relaxationszeiten von endogenem Fluor eignen sich Perfluorkarbone als Markersubstanz in der MR Tomographie von biologischen Systemen. Insbesondere da PFC Emulsionen durch phagozytierende Zellen aufgenommen werden und im Bereich von Entzündungen akkumulieren [30, 59]. In dieser Arbeit konnte anhand der erhaltenen MRT Daten eine Akkumulation von Perfluorkarbonen nicht nur in der chronischen Phase, sondern auch in der akuten Phase nachgewiesen werden. Diese Daten erlauben somit zu allen untersuchten Zeitpunkten eine Abgrenzung zwischen Infektion und umliegenden Gewebe.
Aufgrund der besagten Vorteile wurden die Perfluorkarbone gewählt, um die Möglichkeiten der MR Tomographie zu testen, quantitative Informationen über die schwere der Infektion zu liefern. Als Referenz für die Bakterienbelastung wurden die Biolumineszenzbildgebung (BLI) [49, 50] und die Standardmethode zur Bestimmung der Bakterienbelastung cfu (koloniebildenden Einheiten) herangezogen. Eine Gegenüberstellung der zeitlichen Verläufe der durch die Biolumineszenzbildgebung und durch die cfu erhaltenen Daten liefert eine qualitative Übereinstimmung mit den durch die 19F MR Tomographie erhaltenen Daten. Dies trifft hierbei sowohl auf die über den gesamten Infektionsbereich hinweg summierten Signalamplituden, als auch auf das Volumen zu, in dem Fluor am Ort der Infektion akkumuliert wurde. Im Gegensatz zur Methode der cfu Bestimmung sind die MR Tomographie und die Biolumineszenzbildgebung nicht invasiv und erlauben die Verfolgung des Infektionsverlaufes an einem einzelnen Individuum. Hierzu benötigt, im Gegensatz zur MR Tomographie, die Methode der Biolumineszenzbildgebung jedoch einen speziellen Pathogenstamm. Darüber hinaus ist hervorzuheben, dass die MR Tomographie zudem die Möglichkeit bietet auch morphologische Informationen über den Infektionsbereich und seine Umgebung zu akquirieren.
Gerade weil jede dieser Methoden die mit der Infektion einhergehenden Prozesse aus einer leicht anderen Blickrichtung betrachtet, erscheint es sinnvoll diese etablierte Untersuchungsplattform bestehend aus MRT, BLI und cfu über die in dieser Arbeit bearbeitete Fragestellung hinaus näher zu untersuchen. Insbesondere der Aspekt inwieweit die drei Methoden sich gegenseitig ergänzen, könnte einen tieferen Einblick in die Wechselwirkung zwischen Pathogen und Wirt erlauben.
Auch wenn für die betrachtete Fragestellung bereits der hierdurchgeführte semiquanitative Ansatz zur Bestimmung der relativen Fluormengen am Ort der Infektion ausreichte, so ist doch im Allgemeinen wünschenswert probenbezogen die Sensitivität der Spule und damit die Güte der Spulenabstimmung zu bestimmen. Hierzu ist jedoch die Aufnahme von \(B_1\)-Karten unabdingbar und wird entsprechend im Kapitel 4 \(Bloch-Siegert B_1^+-Mapping\) näher addressiert. Der Schwerpunkt liegt hierbei, wie der Kapitelname bereits andeutet, auf der Bloch-Siegert Methode, die insbesondere in der präsentierten Implementierung in einer Turbo/ Multi Spin Echo Sequenz eine effiziente Nutzung der relativ langen \(T_\)2-Zeiten der Perfluorkarbone erlaubt. Da zudem die Bloch-Siegert-Methode eine rein phasenbasierte Methode ist, kann neben der aus den Daten erzeugten \(B_1\)-Karte zugleich ein unverfälschtes Magnitudenbild generiert werden, wodurch eine sehr effiziente Nutzung der vorhandenen Messzeit ermöglicht wird. Diese Eigenschaft ist insbesondere für \(^{19}F\) Bildgebung von besonderem Interesse, da hier für jede Messung, aufgrund der üblicherweise relativ geringen Konzentration an Fluoratomen, lange Messzeiten benötigt werden.
Zusammenfassend konnte anhand des untersuchten Tiermodells sowohl die Fähigkeit der MR Tomographie nachgewiesen werden Infektionen im Zeitverlauf darzustellen, als auch die Fähigkeit der MR Tomographie quantitative Informationen über den Verlauf der Infektion zu liefern. Desweiteren konnte eine Möglichkeit aufgezeigt werden, welche das Potential hat in vertretbarem Zeitrahmen auch in vivo B1+-Karten auf dem Fluorkanal zu erstellen und so einen zentralen Unsicherheitsfaktor, für Relaxometry und absolute Quantifizierung von \(^{19}F\) Daten in vivo, zu beseitigen.
Measurements of ZZ production in the l(+)l(-)l'(+)l'(-) channel in proton-proton collisions at 13 TeV center-of-mass energy at the Large Hadron Collider are presented. The data correspond to 36.1 fb(-1) of collisions collected by the ATLAS experiment in 2015 and 2016. Here l and l ' stand for electrons or muons. Integrated and differential ZZ -> l(+)l(-)l'(+)l'(-) cross sections with Z -> l(+)l(-) candidate masses in the range of 66 GeV to 116 GeV are measured in a fiducial phase space corresponding to the detector acceptance and corrected for detector effects. The differential cross sections are presented in bins of twenty observables, including several that describe the jet activity. The integrated cross section is also extrapolated to a total phase space and to all standard model decays of Z bosons with mass between 66 GeV and 116 GeV, resulting in a value of 17.3 +/- 0.9 [+/- 0.6(start) +/- 0.5 (syst) +/- 0.6 (lumi)] pb. The measurements are found to be in good agreement with the standard model. A search for neutral triple gauge couplings is performed using the transverse momentum distribution of the leading Z boson candidate. No evidence for such couplings is found and exclusion limits are set on their parameters.
We report on a combined low-temperature scanning tunneling spectroscopy (STS), angle-resolved photoemission spectroscopy (ARPES), and density functional theory (DFT) investigation of the ( √3x√3) Pb/Ag (111)R30° surface alloy which provides a giant Rashba-type spin splitting. With STS we observed spectroscopic features that are assigned to two hole-like Rashba-split bands in the unoccupied energy range. By means of STS and quantum interference mapping we determine the band onsets, splitting strengths, and dispersions for both bands. The unambiguous assignment of scattering vectors is achieved by comparison to ARPES measurements. While intra-band scattering is found for both Rashba bands, inter-band scattering is only observed in the occupied energy range. Spin- and orbitally-resolved band structures were obtained by DFT calculations. Considering the scattering between states of different spin- and orbital character, the apparent deviation between experimentally observed scattering events and the theoretically predicted spin polarization could be resolved.
We investigate transport measurements on all II-VI semiconductor resonant tunneling diodes (RTDs). Being very versatile, the dilute magnetic semiconductor (DMS) system (Zn,Be,Mn,Cd)Se is a perfect testbed for various spintronic device designs, as it allows for separate control of electrical and magnetic properties. In contrast to the ferromagnetic semiconductor (Ga,Mn)As, doping ZnSe with Mn impurities does not alter the electrical properties of the semiconductor, as the magnetic dopant is isoelectric in the ZnSe host.
The future of water-derived hydrogen as the “sustainable energy source” straightaway bets on the success of the sluggish oxygen-generating half-reaction. The endeavor to emulate the natural photosystem II for efficient water oxidation has been extended across the spectrum of organic and inorganic combinations. However, the achievement has so far been restricted to homogeneous catalysts rather than their pristine heterogeneous forms. The poor structural understanding and control over the mechanistic pathway often impede the overall development. Herein, we have synthesized a highly crystalline covalent organic framework (COF) for chemical and photochemical water oxidation. The interpenetrated structure assures the catalyst stability, as the catalyst’s performance remains unaltered after several cycles. This COF exhibits the highest ever accomplished catalytic activity for such an organometallic crystalline solid-state material where the rate of oxygen evolution is as high as ∼26,000 μmol L\(^{–1}\) s\(^{–1}\) (second-order rate constant k ≈ 1650 μmol L s\(^{–1}\) g\(^{–2}\)). The catalyst also proves its exceptional activity (k ≈ 1600 μmol L s\(^{–1}\) g\(^{–2}\)) during light-driven water oxidation under very dilute conditions. The cooperative interaction between metal centers in the crystalline network offers 20–30-fold superior activity during chemical as well as photocatalytic water oxidation as compared to its amorphous polymeric counterpart.
For the realization of a programmable logic device, or indeed any nanoscale device, we need a reliable method to probe the magnetization direction of local domains. For this purpose we extend investigations on the previously discovered tunneling anisotropic magneto resistance effect (TAMR) by scaling the pillar size from 100 µm down to 260 nm. We start in chapter 4 with a theoretical description of the TAMR effect and show experimental data of miniaturized pillars in chapter 5. With such small TAMR probes we are able to locally sense the magnetization on the 100 nm scale. Sub-micron TAMR and anisotropic magneto resistance (AMR) measurements of sub-millimeter areas show that the behavior of macroscopic (Ga,Mn)As regions is not that of a true macrospin, but rather an ensemble average of the behavior of many nearly identical macrospins. This shows that the magnetic anisotropies of the local regions are consistent with the behavior extracted from macroscopic characterization. A fully electrically controllable read-write memory device out the ferromagnetic semiconductor (Ga,Mn)As is presented in chapter 6. The structure consists of four nanobars which are connected to a circular center region. The first part of the chapter describes the lithography realization of the device. We make use of the sub-micron TAMR probes to read-out the magnetization state of a 650 nm central disk. Four 200 nm wide nanobars are connected to the central disk and serve as source and drain of a spin-polarized current. With the spin-polarized current we are able to switch the magnetization of the central disk by means of current induced switching. Injecting polarized holes with a spin angular momentum into a magnetic region changes the magnetization direction of the region due to the p-d exchange interaction between localized Mn spins and itinerant holes. The magnetization of the central disk can be controlled fully electrically and it can serve as one bit memory element as part of a logic device. In chapter 7 we discuss the domain wall resistance in (Ga,Mn)As. At the transition from nanobars to central disk we are able to generate 90° and 180° domain walls and measure their resistance. The results presented from chapter 5 to 7 combined with the preexisting ultracompact (Ga,Mn)As-based memory cell of ref. [Papp 07c] are the building blocks needed to realize a fully functioning programmable logic device. The work of ref. [Papp 07c] makes use of lithographically engineered strain relaxation to produce a structure comprised of two nanobars with mutually orthogonal uniaxial easy axes, connected by a narrow constriction. Measurements showed that the resistance of the constriction depends on the relative orientation of the magnetization in the two bars. The programmable logic device consists of two central disks connected by a small constriction. The magnetization of the two central disks are used as the input bits and the constriction serves as the output during the logic operation. The concept is introduced in the end of chapter 6 and as an example for a logic operation an XOR gate is presented. The functionality of the programmable logic scheme presented here can be straightforwardly extended to produce multipurpose functional elements, where the given geometry can be used as various different computational elements depending on the number of input bits and the chosen electrical addressing. The realization of such a programmable logic device is shown in chapter 8, where we see that the constriction indeed can serve as a output of the logic operation because its resistance is dependent on the relative magnetization state of both disks. Contrary to ref. [Papp 07c], where the individual magnetic elements connected to the constriction only have two non-volatile magnetic states, each disk in our scheme connected to the constriction has four non-volatile magnetic states. Switching the magnetization of a central disk with an electrical current does not only change the TAMR read-out of the respective disk, it also changes the resistance of the constriction. The resistance polar plot of the constriction maps the relative magnetization states of the individual disks. The presented device design serves as an all-electrical, all-semiconductor logic element. It combines a memory cell and data processing in a single monolithic paradigm.