TY  - JOUR
A1  - Pollinger, Florian
A1  - Schmitt, Stefan
A1  - Sander, Dirk
A1  - Tian, Zhen
A1  - Kirschner, Jürgen
A1  - Vrdoljak, Pavo
A1  - Stadler, Christoph
A1  - Maier, Florian
A1  - Marchetto, Helder
A1  - Schmidt, Thomas
A1  - Schöll, Achim
A1  - Umbach, Eberhard
T1  - Nanoscale patterning, macroscopic reconstruction, and enhanced surface stress by organic adsorption on vicinal surfaces
JF  - New Journal of Physics
N2  - Self-organization is a promising method within the framework of bottom-up architectures to generate nanostructures in an efficient way. The present work demonstrates that self- organization on the length scale of a few to several tens of nanometers can be achieved by a proper combination of a large (organic) molecule and a vicinal metal surface if the local bonding of the molecule on steps is significantly stronger than that on low-index surfaces. In this case thermal annealing may lead to large mass transport of the subjacent substrate atoms such that nanometer-wide and micrometer-long molecular stripes or other patterns are being formed on high-index planes. The formation of these patterns can be controlled by the initial surface orientation and adsorbate coverage. The patterns arrange self-organized in regular arrays by repulsive mechanical interactions over long distances accompanied by a significant enhancement of surface stress. We demonstrate this effect using the planar organic molecule PTCDA as adsorbate and Ag(10 8 7) and Ag(775)surfaces as substrate. The patterns are directly observed by STM, the formation of vicinal surfaces is monitored by highresolution electron diffraction, the microscopic surface morphology changes are followed by spectromicroscopy, and the macroscopic changes of surface stress are measured by a cantilever bending method. The in situ combination of these complementary techniques provides compelling evidence for elastic interaction and a significant stress contribution to long-range order and nanopattern formation.
KW  - physics
KW  - patterning
KW  - reconstruction
KW  - surface stress
KW  - STM
KW  - SPA-LEED
KW  - vicinal surfaces
KW  - adsoption
Y1  - 2017
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-171947
VL  - 19
ER  - 
TY  - THES
A1  - Schmidt, Thomas
T1  - Optische Untersuchung und Kontrolle der Spindynamik in Mn dotierten II-VI Quantenpunkten
T1  - Optical Investigations and Control of Spindynamics in Mn doped II-VI Quantum Dots
N2  - Die vorliegende Arbeit befasste sich mit dem Spin- und dem damit eng verbundenen Polarisationszustand von Ladungsträgern in CdSe/ZnSe Quantenpunkten. II-VI Materialsysteme können in geeigneter Weise mit dem Nebengruppenelement Mangan gemischt werden. Diese semimagnetischen Nanostrukturen weisen eine Vielzahl von charakteristischen optischen und elektrischen Besonderheiten auf. Verantwortlich dafür ist eine Austauschwechselwirkung zwischen dem Spin optisch erzeugter Ladungsträger und den 3d Elektronen der Mn Ionen. Im Rahmen dieser Arbeit erfolgte die Adressierung gezielter Spinzustände durch optische Anregung der Ladungsträger. Die Besetzung unterschiedlicher Spinzustände konnte durch Detektion des Polarisationsgrades der emittierten Photolumineszenz (PL) bestimmt werden. Dabei kamen verschiedene optische Methoden wie zeitaufgelöste und zeitintegrierte PL-Spektroskopie sowie Untersuchungen in Magnetfeldern zum Einsatz.
N2  - The present thesis deals with the spin of charge carriers confined in CdSe/ZnSe quantum dots (QDs) closely linked to the polarization of emitted photons. II-VI material systems can be adequately mixed with the B-group element manganese. Such semimagnetic nanostructures offer a number of characteristic optical and electronic features. This is caused by an exchange interaction between the spin of optically excited carriers and the 3d electrons of the Mn ions. Within the framework of this thesis addressing of well defined spin states was realized by optical excitation of charge carriers. The occupation of different spin states was detected by the degree of polarization of the emitted photoluminescence (PL) light. For that purpose different optical methods of time-resolved and time-integrated spectroscopy as well as investigations in magnetic fields were applied.
KW  - Halbleiterschicht
KW  - Niederdimensionaler Halbleiter
KW  - Quantenpunkt
KW  - Optische Spektroskopie
KW  - Zirkularpolarisation
KW  - Polarisiertes Licht
KW  - Exziton
KW  - Spindynamik
KW  - semiconductor quantum dots
KW  - optical spectroscopy
KW  - circular polarization
KW  - exciton
KW  - spindynamic
Y1  - 2009
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-36033
ER  -