PhD, Master, and Semester theses from the Nano-Device Physics Group:
PhD theses
- Ulrich Krumbein,
``Simulation of Carrier Generation in Advanced Silicon Devices"
- Martin Herrmann,
``Charge Loss Modeling for EPROMs with ONO Interpoly Dielectric"
- Andreas Scholze,
``Simulation of single-electron devices"
- Andreas Wettstein,
``Quantum Effects in MOS Devices"
- Frank Geelhaar,
``Coulomb Correlation Effects in Silicon Devices"
- Frederik Heinz,
``Simulation Approaches for Nanoscale Semiconductor Devices"
- Simon Brugger,
``Computation of Semiconductor Properties Using Moments of the Inverse Scattering Operator of the Boltzmann Equation"
- Timm Höhr,
``Quantum-Mechanical Modeling of Transport Parameters for MOS Devices"
- Mathieu Luisier,
``Quantum Transport Beyond the Effective Mass Approximation"
- Aniello Esposito,
``Band Structure Effects and Quantum Transport"
- Martin Frey,
``Scattering in Nanoscale Devices"
- Denis Dolgos,
``Full-Band Monte Carlo Simulation of Single Photon Avalanche Diodes"
- Vincent Peikert,
``Utilizing Wavelets to Solve High-Dimensional Transport Equations in Nano-Devices"
- Cederic Bessire,
``Semiconducting Nanowire Tunnel Devices: From All-Si Tunnel Diodes to III-V
Heterostructure Tunnel FETs"
- Artur Scheinemann,
"Modelling of Leakage Currents Induced by Extended Defects in Extra-Functionality Devices"
- Philipp Mensch,
``Thermoelectric Characterization of InAs Nanowires"
- Saurabh Sant,
``Role of Non-idealities in III-V/Si and All III-V Tunnel Field Effect Transistors"
- Fabian Könemann,
``Scanning Probe Thermometry to study Thermoelectricity and Dissipation at Nanoscale Junctions"
- Kantawong Vuttivorakulchai,
``Thermoelectricity of Nanowires"
- Paulina Aguirre,
``Drift-Diffusion TCAD Modelling of III-V-MOSFETs in the Ballistic Regime"
- Preksha Tiwari,
``III-V on Si for Active Photonics: Downscaling and Emission Control by the Use of Metals"
- Qian Ding,
``Analysis and Design of Monolithic III-V/Si Nanophotonic Devices"
Master theses
-
Alain von Allmen,
``Many Particle Effects in Doped Silicon at Finite Temperature"
-
Manuel Aschwanden,
``A classical view of quantum entanglement" (Supervisor: Prof. Karl Hess, UIUC)
-
Vincent Peikert,
``A New Hybrid Method for the Current-Based One-Particle Monte Carlo Approach"
-
Nils Ketter,
``A Green's Function Simulator for Nanoscopic CNT-based Strain-Sensors" (Co-advisor: Cosmin Roman, MATV)
-
Saurabh Sant,
``Modeling, Growth and Characterization of InGaAs Nanowires" (Co-advisors: Dr. Heike Riel, Dr. Mattias Borg, IBM-Research Zurich)
-
Kuan-Ting Ko,
``Design of Electrically Pumped Plasmonic Nanolaser with Coaxial Ring Cavity" (Co-advisor: Fabien Sorin, EPFL)
Semester theses
-
Vincent Peikert,
``A New Method To Simulate Bipolar Transistors Combining Analytical Solution And Currend-Based MC Method"
-
Ralf Flückiger,
``Strained Silicon"
-
Jan Müller,
``Discrete Distribution of Doping Atoms in Three Dimensional Devices"