TY - THES A1 - Heindel, Tobias T1 - Elektrisch gepumpte Quantenpunkt-Einzelphotonenquellen für die Quantenkommunikation T1 - Electrically Pumped Quantum-Dot Single-Photon Sources for Quantum Communication N2 - Als erste kommerziell verfügbare Technologie der Quanteninformation ermöglicht die Quanten-Schlüsselverteilung eine sichere Datenübertragung indem einzelne Photonen oder quantenmechanisch verschränkte Photonenpaare zur Erzeugung eines Schlüssels verwendet werden. Die hierfür benötigten nicht-klassischen Photonen-Zustände können durch Halbleiter-Quantenpunkte erzeugt werden. Im Gegensatz zu anderen Quanten-Emittern wie isolierten Atomen, organischen Molekülen oder Fehlstellen in Diamantnanokristallen bieten diese zudem den Vorteil, direkt in komplexe Halbleiter-Mikrostrukturen integriert werden zu können. Quantenpunkte sind somit prädestiniert für die Entwicklung neuartiger optoelektronischer Bauelemente auf einer skalierbaren Technologieplattform. Vor diesem Hintergrund werden in der vorliegenden Arbeit die Eigenschaften elektrisch gepumpter Quantenpunkt-Mikrostrukturen untersucht. Als optisch aktives Medium dienen dabei selbstorganisierte InAs/GaAs-Quantenpunkte. Die Zielsetzung ist die Erzeugung nicht-klassischen Lichts für Anwendungen in der Quantenkommunikation, wobei ein besonderer Fokus auf dem elektrischen Betrieb der entsprechenden Quantenlichtquellen liegt. Dabei werden sowohl ausgeprägte Resonatoreffekte im Regime der schwachen Licht-Materie-Wechselwirkung ausgenutzt, um helle Einzelphotonenquellen zu realisieren, als auch die Eigenschaften korrelierter Photonenpaare zweier spektral separierter Quantenpunkt-Zustände analysiert. Als Untersuchungsmethode wird in erster Linie die spektral und zeitlich hochauflösende Mikro-Lumineszenz-Spektroskopie bei kryogenen Temperaturen eingesetzt. Zudem erfolgen Experimente zur Photonenstatistik anhand von Messungen der Auto- sowie Kreuzkorrelationsfunktion zweiter Ordnung. Wie im Folgenden aufgeführt, gelingt dabei der Bogenschlag von grundlegenden Untersuchungen an Quantenpunkt-Mikrostrukturen bis hin zur erstmaligen Implementierung elektrisch getriggerter Quantenpunkt-Einzelphotonenquellen in realistischen Experimenten zur Quanten-Schlüsselverteilung außerhalb einer geschützten Laborumgebung. Elektrisch getriggerte Einzelphotonenquellen: Für die Erzeugung elektrisch getriggerter, einzelner Photonen wurden Quantenpunkte in Mikroresonatoren eingebettet. Diese basieren auf dotierten, zylindrischen Fabry-Pérot Mikrosäulenresonatoren, deren Design bezüglich der Photonen-Auskoppeleffizienz optimiert wurde. […] Anhand von Messungen zur Photonenstatistik konnte für diese spektral resonant gekoppelten Quantenpunkt-Mikroresonatorsysteme sowohl unter kontinuierlicher- als auch unter gepulst-elektrischer Anregung Einzelphotonen-Emission nachgewiesen werden. […] Anhand einer eingehenden Analyse der Emissionsraten sowie der elektrischen Injektionseffizienzen bei Anregungs-Repetitionsraten von bis zu 220 MHz konnte gezeigt werden, dass die untersuchten Mikroresonatoren zudem als äußerst effiziente, elektrisch getriggerte Einzelphotonenquellen eingesetzt werden können. Sowohl bezüglich der Einzelphotonen-Emissionsraten von bis zu (47,0+/-6,9) MHz als auch der Gesamteffizienz der Bauteile bis hin zu (34+/-7) % konnten dabei Rekordwerte erzielt werden. Korrelierte Photonenpaare elektrisch gepumpter Quantenpunkte: […] Quanten-Schlüsselverteilung mit elektrisch getriggerten Einzelphotonenquellen: Ausgehend von den grundlegenden Untersuchungen dieser Arbeit, erfolgte die erstmalige Implementierung elektrisch getriggerter Quantenpunkt-Einzelphotonenquellen in Experimenten zur Quanten-Schlüsselverteilung. Basierend auf den eingehend analysierten Quantenpunkt-Mikroresonatoren, wurden dabei zwei Experimente in Freistrahloptik mit unterschiedlichen Übertragungsdistanzen durchgeführt. In beiden Fällen wurde ein BB84-Protokoll nachgeahmt, indem auf die einzelnen Photonen eine feststehende Abfolge von vier unterschiedlichen Polarisationszuständen aufmoduliert wurde. Das erste Experiment, durchgeführt im Labormaßstab in Würzburg, basierte auf einem Quantenkanal mit einer Länge von etwa 40 cm und arbeitete bei einer Taktrate von 183 MHz. Die höchste dabei erzielte ausgesiebte Schlüsselrate (engl. sifted-key rate) betrug 35,4 kbit/s bei einem Quanten-Bitfehlerverhältnis (QBER) von 3,8 %. Der Einzelphotonen-Charakter der Emission innerhalb des Quantenkanals konnte jeweils eindeutig nachgewiesen werden […]. Das zweite Experiment zur Quanten-Schlüsselverteilung wurde mittels zweier Teleskope über eine Distanz von 500 m in der Münchner Innenstadt zwischen den Dächern zweier Gebäude der Ludwig-Maximilians-Universität realisiert. […] Bei einer Taktrate von 125 MHz konnte mit diesem System im Einzelphotonen-Regime eine maximale sifted-key rate von 11,6 kbit/s bei einem QBER von 6,2 % erzielt werden. Diese erstmalige Implementierung elektrisch betriebener, nicht-klassischer Lichtquellen in Experimenten zur Quanten-Schlüsselverteilung stellt einen wichtigen Schritt hinsichtlich der Realisierung effizienter und praktikabler Systeme für die Quantenkommunikation dar. N2 - Quantum key distribution is the first commercially available technology of quantum information and allows for secure data communication by utilizing single-photons or entangled photon-pairs for key generation. The required non-classical light states can be produced by semiconductor quantum dots. Compared to other quantum emitters, such as isolated atoms, organic molecules or vacancy centers in diamond nanocrystals, they offer the advantage of being capable for the integration into complex semiconductor microstructures. Therefore quantum dots are predestinated for the development of novel optoelectronic devices on a scalable technology platform. In this context, the work at hand explores the properties of electrically-pumped quantum dot microstructures. Thereby selforganized InAs/GaAs quantum dots serve as optically active medium. Aim of this work is the generation of non-classical light for applications in quantum communication, at which the study focuses specifically on electrical operation of the respective quantum light sources. In this framework pronounced cavity effects in the weak coupling regime of light-matter interaction will be employed to realize bright single-photon sources. Furthermore the properties of correlated photon-pairs from two spectrally-seperated quantum dot states will be analyzed. The structures were investigated by means of microluminescence spectroscopy with high spatial and temporal resolution. Moreover, experiments on the photon statistics were performed by measurements of the second-order auto- and cross-correlationfunction. As specified below, achievements within this study range from fundamental investigations on quantum dot microstructures to the first implementation of electrically-triggered quantum dot single-photon sources in realistic quantum key distribution experiments outside a shielded lab environment. Electrically-Triggered Single-Photon Sources: For the generation of electrically-triggered single-photons quantum dots were embedded in microcavities. The latter ones are based on doped Fabry-Pérot micropillar resonators featuring a design that was optimized for enhanced photon-exctraction effiency. […] Photon statistic measurements on these resonantly-coupled quantum dot micropillar systems prooved single-photon emission under continuous electrical as well as pulsed electrical excitation. […] A detailed investigation of the photon emission rates and carrier injection efficincies at excitation repetition rates of up to 220 MHz showed, that the micropillar cavities can be used as extremely efficient single-photon sources. Record high values for single-photon emission rates of up to (47.0+/-6.9) MHz as well as overall efficiencies of up to (34+/-7) % were achieved for these devices. Correlated Photon-Pairs of Electrically Pumped Quantum Dots: […] Quantum Key Distribution Using Electrically Triggered Single-Photon Sources: Based on the fundamental investigations in this work, the first implementation of electrically driven quantum dot single-photon sources into quantum key distribution experiments was carried out. Utilizing the investigated quantum dot micropillar cavities, two free space experiments were performed with different transmission distances. In both cases a BB84-protocoll was emulated by modulating the single-photons with a fixed pattern of four different polarization settings. The first experiment, performed on a lab-scale in Würzburg, is based on a 40 cm quantum channel and worked at a clock rate of 183 MHz. Sifted-key rates of up to 35.4 kbit/s with a quantum bit error ratio (QBER) of 3.8 % were achieved. Single-photon emission within the quantum channel was proven unambiguously […]. The second quantum key distribution experiment was realized over a distance of 500 m in downtown Munich, connecting two buildings of the Ludwig-Maximilians-Universität via telescopes on the rooftops. […] Using this system at a clock rate of 125 MHz, a maximum sifted-key rate of 11.6 kbit/s at a QBER of 6.2 % was achieved in the single-photon regime. This first implementation of an electrically-driven non-classical light source in quantum key distribution experiments can be considered as a major step toward the realization of efficient and practical quantum communication systems. KW - Quantenpunkt KW - Lumineszenzdiode KW - Einzelphotonenemission KW - semiconductor quantum dot KW - single photon emission KW - non-classical light KW - electrically triggered KW - quantum key distribution KW - quantum information technology KW - Quantenkryptologie Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-105778 ER - TY - JOUR A1 - Moffet, R. C. A1 - Rödel, R. C. A1 - Kelly, S. T. A1 - Yu, X. Y. A1 - Carroll, G. T. A1 - Fast, J. A1 - Zaveri, R. A. A1 - Laskin, A. A1 - Gilles, M. K. T1 - Spectro-microscopic measurements of carbonaceous aerosol aging in Central California JF - Atmospheric Chemistry and Physics N2 - Carbonaceous aerosols are responsible for large uncertainties in climate models, degraded visibility, and adverse health effects. The Carbonaceous Aerosols and Radiative Effects Study (CARES) was designed to study carbonaceous aerosols in the natural environment of the Central Valley, California, and learn more about their atmospheric formation and aging. This paper presents results from spectro-microscopic measurements of carbonaceous particles collected during CARES at the time of a pollution accumulation event (27-29 June 2010), when in situ measurements indicated an increase in the organic carbon content of aerosols as the Sacramento urban plume aged. Computer-controlled scanning electron microscopy coupled with an energy dispersive X-ray detector (CCSEM/EDX) and scanning transmission X-ray microscopy coupled with near-edge X-ray absorption spectroscopy (STXM/NEXAFS) were used to probe the chemical composition and morphology of individual particles. It was found that the mass of organic carbon on individual particles increased through condensation of secondary organic aerosol. STXM/NEXAFS indicated that the number fraction of homogenous organic particles lacking inorganic inclusions (greater than similar to 50 nm equivalent circular diameter) increased with plume age, as did the organic mass per particle. Comparison of the CARES spectro-microscopic dataset with a similar dataset obtained in Mexico City during the MILAGRO campaign showed that fresh particles in Mexico City contained three times as much carbon as those sampled during CARES. The number fraction of soot particles at the Mexico City urban site (ranging from 16.6 to 47.3 %) was larger than at the CARES urban site (13.4-15.7%), and the most aged samples from CARES contained fewer carbon-carbon double bonds. Differences between carbonaceous particles in Mexico City and California result from different sources, photochemical conditions, gas phase reactants, and secondary organic aerosol precursors. The detailed results provided by these spectro-microscopic measurements will allow for a comprehensive evaluation of aerosol process models used in climate research. KW - photochemical air-pollution KW - Mexico City KW - black carbon KW - mixing state KW - atmospheric aerosols Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-121827 SN - 1680-7324 VL - 13 IS - 20 ER - TY - JOUR A1 - König, Markus A1 - Baenninger, Matthias A1 - Garcia, Andrei G. F. A1 - Harjee, Nahid A1 - Pruitt, Beth L. A1 - Ames, C. A1 - Leubner, Philipp A1 - Brüne, Christoph A1 - Buhmann, Hartmut A1 - Molenkamp, Laurens W. A1 - Goldhaber-Gordon, David T1 - Spatially Resolved Study of Backscattering in the Quantum Spin Hall State JF - Physical Review X N2 - The discovery of the quantum spin Hall (QSH) state, and topological insulators in general, has sparked strong experimental efforts. Transport studies of the quantum spin Hall state have confirmed the presence of edge states, showed ballistic edge transport in micron-sized samples, and demonstrated the spin polarization of the helical edge states. While these experiments have confirmed the broad theoretical model, the properties of the QSH edge states have not yet been investigated on a local scale. Using scanning gate microscopy to perturb the QSH edge states on a submicron scale, we identify well-localized scattering sites which likely limit the expected nondissipative transport in the helical edge channels. In the micron-sized regions between the scattering sites, the edge states appear to propagate unperturbed, as expected for an ideal QSH system, and are found to be robust against weak induced potential fluctuations. KW - mesoscopics KW - topological insulators KW - transport KW - charge KW - wells KW - branched flow KW - nanostructures Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-127225 SN - 2160-3308 VL - 3 IS - 2 ER - TY - THES A1 - Lermer, Matthias T1 - Wachstum und Charakterisierung von Quantenpunkt-Mikrotürmchen mit adiabatischer Modenanpassung T1 - Growth and characterisation of quantum dot - micropillars with adiabatic mode transission N2 - Verschiedene Konzepte zur Realisierung einer geeigneten Umgebung für Licht- Materie-Wechselwirkung konkurrieren um Anerkennung und eine ständige Optimierung der Systemparameter findet statt. Das Konzept von Mikrotürmchen scheint prädestiniert, da es viele anwendungsfreundliche Eigenschaften in sich vereint. Allerdings stellt die drastische Abnahme des Q Faktors für kleiner werdende Durchmesser d einen wesentlichen Limitierungsfaktor dieser Strukturen dar. Für viele Anwendungen resultiert daraus ein Kompromiss aus hohem Q Faktor und kleinem Modenvolumen der Strukturen, wodurch das volle Potential des Resonatorsystems nicht ausgeschöpft werden kann. Ziel dieser Arbeit war es, die drastische Abnahme des Q Faktors von Mikrotürmchen mit Durchmessern um 1μm aufzuheben und dadurch Resonatoren mit d < 1μm für ausgeprägte Licht-Materie-Wechselwirkung herzustellen. Dazu wurde erstmalig beabsichtigt eine Modenanpassung in Mikrotürmchen vorgenommen. Mittels Molekularstrahlepitaxie konnte eine Übergangsregion, bestehend aus drei Segmenten, in diese Strukturen implementiert und so ein adiabatischer Modenübergang zwischen der aktiven Mittelschicht und den Spiegelbereichen vorgenommen werden. Der positive Einfluss dadurch ergab sich in einer signifikanten Verbesserung des gemessenen Q Faktors für Durchmesser unter 1μm. Für d = 0.85μm konnte ein Q Faktor von 14 400 bestimmt werden. Dies stellt damit den höchsten je gemessenen Wert für Mikrotürmchen im Submikrometerbereich dar. Dadurch wird ein Bereich mit Modenvolumina < 3 kubischen Wellenlängen erschlossen und ausgeprägte Wechselwirkungseffekte im Mikrotürmchensystem sind zu erwarten. Starke Quantenpunkt-Licht-Kopplung konnte in diesen Strukturen nachgewiesen werden. Die höchste Vakuum-Rabiaufspaltung betrug 85μeV und die Visibilität wurde zu 0.41 bestimmt. Im Zuge der weiteren Optimierung der Systemparameter für die starke Kopplung wurde ein ex-situ Ausheilschritt auf die verwendete Quantenpunktsorte angewendet. In magnetooptischen Untersuchungen konnte damit eine Verdopplung der mittleren Oszillatorstärke auf einen Wert von 12 abgeschätzt werden. Weiter konnte in adiabatischen Mikrotürmchen über einen großen Durchmesserbereich von 2.25 bis 0.95μm eindeutiger Laserbetrieb des Quantenpunktensembles nachgewiesen werden. Dabei konnte eine kontinuierliche Reduzierung der Laserschwelle von über zwei Größenordnungen für kleiner werdende Durchmesser beobachtet werden. Für Durchmesser � < 1.6μm betrug der Beta-Faktor der Mikrolaser in etwa 0.5. Sie zeigten damit beinahe schwellenloses Verhalten. Zuletzt wurde der elektrische Betrieb von adiabatischen Mikrotürmchen gezeigt. Dafür wurde eine dotierte Struktur mit adiabatischem Design hergestellt. Im Vergleich zur undotierten Struktur fielen die gemessenen Q Faktoren in etwa um 5 000 geringer aus. Die spektralen Eigenschaften sowohl des Resonators als auch einzelner Quantenpunktlinien zeigten vernachlässigbare Abhängigkeit der Anregungsart (optisch oder elektrisch) und zeugen von einem erfolgreichen Konzept zum elektrischen Betrieb der Bauteile. Zeitaufgelöste Messungen erlaubten die Beobachtung von interessanten Dynamiken der Rekombination von Ladungsträgern in den Proben. Als Ursache dafür wurde ein hohes intrinsisches Feld, welches auf Grund des Designs der Schichtstruktur entsteht, identifiziert. Weiter zeigte sich, dass sich das interne Feld durch Anregungsart und extern angelegte Spannungen manipulieren lässt. N2 - Various concepts for the realization of a proper environment for interaction of light and matter compete for recognition and a continous optimizing process takes place. The concept of micropillars seems to be predestinated as it unifies many helpful properties for daily use applications. To this day the drastic decrease of the Q factor for smaller diameters d has been a fundamental reason for the limitation of these structures. For many applications a trade-off between high Q factor and small mode volume has been neccessary, so that the full potential of the resonator system has not been exploited totally. The objective of this work was to compensate for the drastic decrease of the Q factor of micropillars with diameters around 1μm and to fabricate resonators with d < 1μm for pronounced interaction of light and matter. For this purpose for the first time an intended mode engineering has been exploited in micropillars. By means of molecular beam epitaxy an intersection region, consisting of three segments, has been implemented in these structures and so an adiabatic transition of the mode between the active midsection and the mirrorparts has been achieved. The positive influence has been proven by a significant improvement of the measured Q factor for diameters below 1μm. For d = 0.85μm a Q factor of 14 400 has been detected. This is the highest Q factor ever measured for microilllars in the submicron regime. By that a regime with mode volumes < 3 cubic wavelengths gets accessible and pronounced effects of interaction in the system of micropillars are expected. In these structures strong quantum dot - light coupling has been shown. The largest vacuum- Rabisplitting has been 85μeV and the visibility has been determined to 0.41. In the course of further optimization of the system parameters for the regime of strong coupling an ex-situ annealing step has been adopted to the used type of quantum dots. Magnetooptical analysis has shown a doubling of the oscillator strength and allowed an estimation for the value to 12. Furthermore in adiabatic micropillars, over a vast diameter range from 2.25 to 0.95μm, clear evidence for lasing of the quantum dot ensemble has been shown. Simultanously a continous decrease of the lasing threshold by more than two orders of magnitude for small diameters has been observed. For Diameters < 1.6μm the Beta-factor of the microlasers has been determined to be around 0.5. Therefore they showed almost thresholdless behavior. Finally electrical operation of adiabatic micropillars has been shown. For that a doped structure with the adiabatic design has been fabricated. In comparison with the undoped structure the measured Q factors drop to values around 5 000. The spectral properties of both the resonator and single quantum dot lines have shown negligible dependence on the form of excitation (optical or electrical), indicating that a successful concept for the electrical excitation of the devices has been established. Time resolved measurments have allowed to observe interesting dynamics of the recombination of charge carriers. We have identified the large intrinsic field, which arises because of the design of the layer structure, being the origin for this. Furthermore we have shown, that the internal field can be manipulated by the excitation scheme and the external applied voltage. KW - Molekularstrahlepitaxie KW - Quantenpunkt KW - Adiabatische Modenanpassung KW - adiabatic modetransission KW - Licht Materie Wechselwirkung KW - light matter coupling KW - Optoelektronik KW - Lithografie KW - Spektroskopie Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-127438 ER - TY - JOUR A1 - Dasenbrook, Elliot C. A1 - Lu, Luan A1 - Donnola, Shannon A1 - Weaver, David E. A1 - Gulani, Viskas A1 - Jakob, Peter M. A1 - Konstan, Michael W. A1 - Flask, Chris A. T1 - Normalized T1 Magnetic Resonance Imaging for Assessment of Regional Lung Function in Adult Cystic Fibrosis Patients - A Cross-Sectional Study JF - PLOS ONE N2 - Background: Cystic fibrosis (CF) patients would benefit from a safe and effective tool to detect early-stage, regional lung disease to allow for early intervention. Magnetic Resonance Imaging (MRI) is a safe, non-invasive procedure capable of providing quantitative assessments of disease without ionizing radiation. We developed a rapid normalized T1 MRI technique to detect regional lung disease in early-stage CF patients. Materials and Methods: Conventional multislice, pulmonary T1 relaxation time maps were obtained for 10 adult CF patients with normal spirometry and 5 healthy non-CF control subjects using a rapid Look-Locker MRI acquisition (5 seconds/imaging slice). Each lung absolute T1 map was separated into six regions of interest (ROI) by manually selecting upper, central, and lower lung regions in the left and right lungs. In order to reduce the effects of subject-to-subject variation, normalized T1 maps were calculated by dividing each pixel in the absolute T1 maps by the mean T1 time in the central lung region. The primary outcome was the differences in mean normalized T1 values in the upper lung regions between CF patients with normal spirometry and healthy volunteers. Results: Normalized T1 (nT1) maps showed visibly reduced subject-to-subject variation in comparison to conventional absolute T1 maps for healthy volunteers. An ROI analysis showed that the variation in the nT1 values in all regions was <= 2% of the mean. The primary outcome, the mean (SD) of the normalized T1 values in the upper right lung regions, was significantly lower in the CF subjects [.914 (.037)] compared to the upper right lung regions of the healthy subjects [.983 (.003)] [difference of .069 (95% confidence interval .032-.105); p=.001). Similar results were seen in the upper left lung region. Conclusion: Rapid normalized T1 MRI relaxometry obtained in 5 seconds/imaging slice may be used to detect regional early-stage lung disease in CF patients. KW - infants KW - disease KW - ventilation KW - infection KW - guidelines KW - diagnosis KW - children Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-128346 SN - 1932-6203 VL - 8 IS - 9 ER - TY - JOUR A1 - Okada, Michio A1 - Rotenberg, Eli A1 - Kevan, S. D. A1 - Schäfer, J. A1 - Ujfalussy, Balazs A1 - Stocks, G. Malcolm A1 - Genatempo, B. A1 - Bruno, E. A1 - Plummer, E. W. T1 - Evolution of the electronic structure in \(Mo_{1-x}Re_x\) alloys JF - New Journal of Physics N2 - We report a detailed experimental and theoretical study of the electronic structure of \(Mo_{1-x}Re_x\) random alloys. We have measured electronic band dispersions for clean and hydrogen-covered \(Mo_{1-x}Re_x\) ( 110) with x = 0-0.25 using angle-resolved photoemission spectroscopy. Our results suggest that the bulk and most surface electronic bands shift relative to the Fermi level systematically and approximately rigidly with Re concentration. We distinguish and quantify two contributions to these shifts: a raise of the Fermi energy and an increase of the overall bandwidth. Alloy bands calculated using the first-principles Korringa-Kohn-Rostoker coherent-potential-approximation method accurately predict both of these effects. As derived from the rigid band model, the Fermi energy shift is inversely related to the bulk density of states in this energy region. Using our results, we also characterize an electronic topological transition of the bulk Fermi surface and relate this to bulk transport properties. Finally, we distinguish effects beyond the rigid band approximation: a highly surface-localized state and a composition-dependent impact of the spin-orbit interaction. KW - topological transitions KW - surface state KW - metals KW - total energy KW - W(110) KW - hydrogen KW - mo KW - superconductivity KW - spectra KW - coherent potential approximation Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-122993 SN - 1367-2630 VL - 15 IS - 093010 ER - TY - JOUR A1 - Kasprzak, J. A1 - Sivalertporn, K. A1 - Albert, F. A1 - Schneider, C. A1 - Höfling, S. A1 - Kamp, M. A1 - Forchel, A. A1 - Muljarov, E. A. A1 - Langbein, W. T1 - Coherence dynamics and quantum-to-classical crossover in an exciton-cavity system in the quantum strong coupling regime JF - New Journal of Physics N2 - Interaction between light and matter generates optical nonlinearities, which are particularly pronounced in the quantum strong coupling regime. When a single bosonic mode couples to a single fermionic mode, a Jaynes-Cummings (JC) ladder is formed, which we realize here using cavity photons and quantum dot excitons. We measure and model the coherent anharmonic response of this strongly coupled exciton-cavity system at resonance. Injecting two photons into the cavity, we demonstrate a \(\sqrt 2\) larger polariton splitting with respect to the vacuum Rabi splitting. This is achieved using coherent nonlinear spectroscopy, specifically four-wave mixing, where the coherence between the ground state and the first (second) rung of the JC ladder can be interrogated for positive (negative) delays. With increasing excitation intensity and thus rising average number of injected photons, we observe spectral signatures of the quantum-to-classical crossover of the strong coupling regime. KW - Jaynes-Cummings ladder KW - spectral interferometry KW - photon KW - dot KW - spectroscopy KW - oscillations KW - microcavity KW - resonance KW - light Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-123005 SN - 1367-2630 VL - 15 IS - 045013 ER - TY - JOUR A1 - Kim, N. Y. A1 - Kusudo, K. A1 - Löffler, A. A1 - Höfling, S. A1 - Forchel, A. A1 - Yamamoto, Y. T1 - Exciton-polariton condensates near the Dirac point in a triangular lattice JF - New Journal of Physics N2 - Dirac particles, massless relativistic entities, obey linear energy dispersions and hold important implications in particle physics. The recent discovery of Dirac fermions in condensed matter systems including graphene and topological insulators has generated a great deal of interest in exploring the relativistic properties associated with Dirac physics in solid-state materials. In addition, there are stimulating research activities to engineer Dirac particles, elucidating their exotic physical properties in a controllable setting. One of the successful platforms is the ultracold atom-optical lattice system, whose dynamics can be manipulated and probed in a clean environment. A microcavity exciton-polariton-lattice system offers the advantage of forming high-orbital condensation in non-equilibrium conditions, which enables one to explore novel quantum orbital order in two dimensions. In this paper, we experimentally construct the band structures near Dirac points, the vertices of the first hexagonal Brillouin zone with exciton-polariton condensates trapped in a triangular lattice. Due to the finite spectral linewidth, the direct map of band structures at Dirac points is elusive; however, we identify the linear part above Dirac points and its associated velocity value is similar to ~0.9-2 x \(10^8 cm s^{-1}\), consistent with the theoretical estimate \(1 x 10^8 cm s^{-1}\) with a \(2 \mu m\) lattice constant. We envision that the exciton-polariton condensates in lattices would be a promising solid-state platform, where the system order parameter can be accessed in both real and momentum spaces. KW - Bose-Einstein condensation KW - carbon nanotubes KW - graphene KW - electron KW - dynamics KW - fermions KW - trap KW - gas Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-123103 SN - 1367-2630 VL - 15 IS - 035032 ER - TY - JOUR A1 - Hopfmann, C. A1 - Albert, F. A1 - Schneider, C. A1 - Höfling, S. A1 - Kamp, M. A1 - Forchel, A. A1 - Kanter, I. A1 - Reizenstein, S. T1 - Nonlinear emission characteristics of quantum dot-micropillar lasers in the presence of polarized optical feedback JF - New Journal of Physics N2 - We report on electrically pumped quantum dot-microlasers in the presence of polarized self-feedback. The high-\(\beta\) microlasers show two orthogonal, linearly polarized emission modes which are coupled via the common gain medium. This coupling is explained in terms of gain competition between the two lasing modes and leads to distinct differences in their input-output characteristics. By applying polarized self-feedback via an external mirror, we are able to control the laser characteristics of the emission modes in terms of the output power, the coherence time and the photon statistics. We find that linearly polarized self-feedback stabilizes the lasing of a given mode, while cross-polarized feedback between the two modes reduces strongly the intensity of the other emission mode showing particular high-intensity fluctuations and even super-thermal values of the photon autocorrelation function \(g^{(2)} (\tau)\) at zero delay. Measurements of \(g^{(2)} (\tau)\) under external feedback also allow us to detect revival peaks associated with the round trip time of the external cavity. Analyzing the damping and shape of the \(g^{(2)} (\tau)\) revival peaks by a phenomenological model provides us insight into the underlying physics such as the effective exciton lifetime and gain characteristics of the quantum dots in the active region of these microlasers. KW - semiconductor lasers KW - coherence KW - system KW - gain Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-123127 SN - 1367-2630 VL - 15 IS - 025030 ER - TY - THES A1 - Schmitt, Peter T1 - MR imaging of tumors: Approaches for functional and fast morphological characterization T1 - MR-Bildgebung von Tumoren: Ansätze zur funktionellen und schnellen morphologischen Charakterisierung N2 - The subject of this work was to develop, implement, optimize and apply methods for quantitative MR imaging of tumors. In the context of functional and physiological characterization, this implied transferring techniques established in tumor model research to human subjects and assessing their feasibility for use in patients. In the context of the morphologic assessment and parameter imaging of tumors, novel concepts and techniques were developed, which facilitated the simultaneous quantification of multiple MR parameters, the generation of “synthetic” MR images with various contrasts, and the fast single-shot acquisition of purely T2-weighted images. N2 - Gegenstand dieser Arbeit war die Entwicklung, Implementierung, Optimierung und Anwendung von Methoden für die quantitative MR-Bildgebung an Tumoren. In Bezug auf eine funktionelle und physiologische Charakterisierung wurden in der Forschung an Tumormodellen etablierte Verfahren für den Einsatz am Menschen adaptiert und ihre Anwendbarkeit zur Untersuchung von Tumoren wurde an Patienten erforscht. Im Bereich der morphologischen Untersuchung und Parameterbildgebung an Tumoren wurden neue Konzepte und Verfahren entwickelt, welche die simultane Quantifizierung mehrerer MR-Parameter, die Generierung "synthetischer" MR-Bilder mit unterschiedlichen Kontrasten, sowie die schnelle "Single-Shot"-Akquisition rein T2-gewichteter Bilder ermöglichen. KW - Kernspintomografie KW - Tumor KW - MR imaging KW - Tumors KW - Relaxometry KW - IR-TrueFISP KW - synthetic MRI KW - TOSSI Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-135967 ER -