@phdthesis{Siddiki2005,
  author    = {Siddiki, Afif},
  title     = {Model calculations of current and density distributions in dissipative Hall bars},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-15100},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2005},
  abstract  = {In this work we examine within the self-consistent Thomas-Fermi-Poisson approach the low-temperature screening properties of a two-dimensional electron gas (2DEG) subjected to strong perpendicular magnetic fields. In chapter 3, numerical results for the unconfined 2DEG are compared with those for a simplified Hall-bar geometry realized by two different confinement models. It is shown that in the strongly nonlinear-screening limit of zero temperature the total variation of the screened potential is related by simple analytical expressions to the amplitude of an applied harmonic modulation potential and to the strength of the magnetic field. In chapter 4 we study the current and charge distribution in a two-dimensional electron system, under the conditions of the integer quantized Hall effect, on the basis of a quasilocal transport model, that includes nonlinear screening effects on the conductivity via the self-consistently calculated density profile. The existence of "incompressible strips" with integer Landau level filling factor is investigated within a Hartree-type approximation, and nonlocal effects on the conductivity along those strips are simulated by a suitable averaging procedure. This allows us to calculate the Hall and the longitudinal resistance as continuous functions of the magnetic field B, with plateaus of finite widths and the well-known, exactly quantized values. We emphasize the close relation between these plateaus and the existence of incompressible strips, and we show that for B values within these plateaus the potential variation across the Hall bar is very different from that for B values between adjacent plateaus, in agreement with recent experiments. We have improved on the previous chapter by a critical investigation of the impurity potential profiles and obtained reasonable estimates of the range and the amplitude of the potential fluctuations. We added a harmonic perturbation potential to the confining potential in order to generate the long-range-part of the overall impurity potential in the translation invariant model. This treatment of the long-range fluctuations allowed us to resolve apparent discrepancies such as the dependence of the QH plateau width on the mobility and to understand the crossing values of the high and low temperature Hall resistances. An interesting outcome of this model is that, it predicts different crossing values depending on the sample width and mobility. In chapter 6 we brie y report on theoretical and experimental investigations of a novel hysteresis effect that has been observed on the magneto-resistance (MR) of quantum-Hall (QH) bilayer systems in magnetic field (B) intervals, in which one layer is in a QH-plateau while the other is near an edge of a QH-plateau. We extend a recent approach to the QH effect, based on the Thomas-Fermi-Poisson theory and a local conductivity model to the bilayer system. This approach yields very different density and potential landscapes for the B-values at different edges of a QH plateau. Combining this with the knowledge about extremely long relaxation times to the thermodynamic equilibrium within the plateau regime, we simulate the hysteresis in the "active" current-carrying layer by freezing-in the electron density in the other, "passive", layer at the profile corresponding to the low-B edge of its QH plateau as B is swept up, and to the profile at the high-B edge as B is swept down. The calculated MR hysteresis is in good qualitative agreement with the experiment. If we use the equilibrium density profile, we obtain excellent agreement with an "equilibrium" measurement, in which the system was heated up to ~ 10K and cooled down again at each sweep step.},
  subject      = {Elektronengas},
  language  = {en}
}
@phdthesis{Maier2018,
  author    = {Maier, Patrick},
  title     = {Memristanz und Memkapazit{\"a}t von Quantenpunkt-Speichertransistoren: Realisierung neuromorpher und arithmetischer Operationen},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-164234},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2018},
  abstract  = {In dieser Arbeit werden Quantenpunkt-Speichertransistoren basierend auf modulationsdotierten GaAs/AlGaAs Heterostrukturen mit vorpositionierten InAs Quantenpunkten vorgestellt, welche in Abh{\"a}ngigkeit der Ladung auf den Quantenpunkten unterschiedliche Widerst{\"a}nde und Kapazit{\"a}ten aufweisen. Diese Ladungsabh{\"a}ngigkeiten f{\"u}hren beim Anlegen von periodischen Spannungen zu charakteristischen, durch den Ursprung gehenden Hysteresen in der Strom-Spannungs- und der Ladungs-Spannungs-Kennlinie. Die ladungsabh{\"a}ngigen Widerst{\"a}nde und Kapazit{\"a}ten erm{\"o}glichen die Realisierung von neuromorphen Operationen durch Nachahmung von synaptischen Funktionalit{\"a}ten und arithmetischen Operationen durch Integration von Spannungs- und Lichtpulsen.},
  subject      = {Nichtfl{\"u}chtiger Speicher},
  language  = {de}
}
@phdthesis{Keller2004,
  author    = {Keller, Dirk},
  title     = {Optische Eigenschaften ZnSe-basierter zweidimensionaler Elektronengase und ihre Wechselwirkung mit magnetischen Ionen},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-14774},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2004},
  abstract  = {In dieser Arbeit wurden nichtmagnetische und semimagnetische ZnSe-basierte Quantentr{\"o}ge untersucht. Im Mittelpunkt des Interesses standen hierbei vor allem die Modifikation der optischen Spektren mit einer zunehmenden Modulationsdotierung der Strukturen und der Einfluss von Spinflip-Streuungen der freien Band-Elektronen an den Mn-Ionen auf die Magnetisierung und somit die Zeeman-Aufspaltung der Strukturen. Als experimentelle Methoden wurden Photolumineszenz (PL), Photolumineszenzanregung (PLE) und Reflexionsmessungen verwendet, die in Magnetfeldern von bis zu B=48 T und bei Temperaturen im Bereich von 1.6 K bis 70 K durchgef{\"u}hrt wurden. Dar{\"u}ber hinaus wurde die Abh{\"a}ngigkeit der Spin-Gitter-Relaxationszeit der Mn-Ionen von der Mn-Konzentration und der Elektronengasdichte in den Quantentr{\"o}gen durch zeitaufgel{\"o}ste Lumineszenzmessungen untersucht. Der Einfluss eines Gradienten in der s/p-d-Austauschwechselwirkung auf die Diffusion der Ladungstr{\"a}ger bildet einen weiteren Schwerpunkt dieser Arbeit. Als experimentelle Methode wurde hierbei ortsaufgel{\"o}ste Lumineszenz verwendet.},
  subject      = {Zinkselenid},
  language  = {de}
}
@phdthesis{Hoepfner2012,
  author    = {H{\"o}pfner, Philipp Alexander},
  title     = {Two-Dimensional Electron Systems at Surfaces — Spin-Orbit Interaction and Electronic Correlations},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-78876},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2012},
  abstract  = {This thesis addresses three different realizations of a truly two-dimensional electron system (2DES), established at the surface of elemental semiconductors, i.e., Pt/Si(111), Au/Ge(111), and Sn/Si(111). Characteristic features of atomic structures at surfaces have been studied using scanning tunneling microscopy and low energy electron diffraction with special emphasis on Pt deposition onto Si(111). Topographic inspection reveals that Pt atoms agglomerate as trimers, which represent the structural building block of phase-slip domains. Surprisingly, each trimer is rotated by 30° with respect to the substrate, which results in an unexpected symmetry breaking. In turn, this represents a unique example of a chiral structure at a semiconductor surface, and marks Pt/Si(111) as a promising candidate for catalytic processes at the atomic scale. Spin-orbit interactions (SOIs) play a significant role at surfaces involving heavy adatoms. As a result, a lift of the spin degeneracy in the electronic states, termed as Rashba effect, may be observed. A candidate system to exhibit such physics is Au/Ge(111). Its large hexagonal Fermi sheet is suggested to be spin-split by calculations within the density functional theory. Experimental clarification is obtained by exploiting the unique capabilities of three-dimensional spin detection in spin- and angle-resolved photoelectron spectroscopy. Besides verification of the spin splitting, the in-plane components of the spin are shown to possess helical character, while also a prominent rotation out of this plane is observed along straight sections of the Fermi surface. Surprisingly and for the first time in a 2DES, additional in-plane rotations of the spin are revealed close to high symmetry directions. This complex spin pattern must originate from crystalline anisotropies, and it is best described by augmenting the original Rashba model with higher order Dresselhaus-like SOI terms. The alternative use of group-IV adatoms at a significantly reduced coverage drastically changes the basic properties of a 2DES. Electron localization is strongly enhanced, and the ground state characteristics will be dominated by correlation effects then. Sn/Si(111) is scrutinized with this regard. It serves as an ideal realization of a triangular lattice, that inherently suffers from spin frustration. Consequently, long-range magnetic order is prohibited, and the ground state is assumed to be either a spiral antiferromagnetic (AFM) insulator or a spin liquid. Here, the single-particle spectral function is utilized as a fundamental quantity to address the complex interplay of geometric frustration and electronic correlations. In particular, this is achieved by combining the complementary strengths of ab initio local density approximation (LDA) calculations, state-of-the-art angle-resolved photoelectron spectroscopy, and the sophisticated many-body LDA+DCA. In this way, the evolution of a shadow band and a band backfolding incompatible with a spiral AFM order are unveiled. Moreover, beyond nearest-neighbor hopping processes are crucial here, and the spectral features must be attributed to a collinear AFM ground state, contrary to common expectation for a frustrated spin lattice.},
  subject      = {Halbleiteroberfl{\"a}che},
  language  = {en}
}
@phdthesis{BrandensteinKoeth2010,
  author    = {Brandenstein-K{\"o}th, Bettina},
  title     = {Nichtlinearer Magnetotransport und memristive Funktionen von nanoelektronischen Bauteilen},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-53643},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2010},
  abstract  = {Gegenstand dieser Arbeit sind Transportuntersuchungen an nanoelektronischen Bauelementen, wobei der Schwerpunkt in der Analyse von nichtlinearen Transporteigenschaften hybrider Strukturen stand. Zum Einsatz kamen auf GaAs basierende Heterostrukturen mit zum Beispiel kleinen Metallkontakten, die zu Symmetriebrechungen f{\"u}hren. Die Untersuchungen wurden bei tiefen Temperaturen bis hin zu Raumtemperatur durchgef{\"u}hrt. Es kamen zudem magnetische Felder zum Einsatz. So wurden zum einen der asymmetrische Magnetotransport in Nanostrukturen mit asymmetrischer Gateanordnung unter besonderer Ber{\"u}cksichtigung der Phononstreuung analysiert, zum anderen konnte ein memristiver Effekt in InAs basierenden Strukturen studiert werden. Des Weiteren konnte ein beachtlicher Magnetowiderstand in miniaturisierten CrAu-GaAs Bauelementen beobachtet werden, der das Potential besitzt, als Basis f{\"u}r extrem miniaturisierte Sensoren f{\"u}r den Betrieb bei Raumtemperatur eingesetzt zu werden.},
  subject      = {Magnetowiderstand},
  language  = {de}
}