Rode's Iterative Method
30 Jun 2011 | Teaching Materials | Contributor(s): Dragica Vasileska
This set of handwritten notes is part of the Semiconductor Transport class.
Conductivity Calculation
Relaxation Time Approximation
Introduction to Boltzmann Transport Equation
Confined Carriers - Coulomb Scattering
Confined Carriers - Interface Roughness Scattering
Confined Carriers - Acoustic Phonon Scattering
Introductory Comments for Confined Carriers
These handwritten notes give introductory notes for confined carriers and are part of the Semiconductor Transport class.
Carrier-Carrier scattering
These handwritten notes are part of the semiconductor transport Class and describe carrier-carrier scattering.
Intervalley scattering
These handwritten notes describe intervalley scattering and are part of the Semiconductor Transport class.
Piezoelectric Scattering
This set of handwritten notes describes piezoelectric scattering and is part of the Semiconductor Transport class.
Polar optical phonon scattering
These handwritten lecture notes are part of the semiconductor transport class and describe polar optical phonon scattering derivation.
Non-polar optical phonon scattering
These handwritten notes are part of the Semiconductor Transport class and describe non-polar optical phonon scattering.
Deformation Potential Scattering
This set of lecture notes is part of the semiconductor transport class. This particular lecture gives the scattering rates for deformation potential scattering.
Time-Dependent Perturbation Theory and Variable Matrix Element
This set of handwritten notes is part of the semiconductor transport class. It gives the derivation of the Fermi's Golden Rule.
Lattice Dynamics
This set of handwritten notes is part of the semiconductor transport class. It describes lattice vibrations.
Quantum Theory of Electrons in Periodic Latices
This set of handwritten notes is part of the semiconductor transport class. It describes the Bloch theorem, electrons in a crystal and the concept of effective mass.
Review of Statistical Mechanics
This set of handwritten notes is part of the semiconductor transport class. It deals with the derivations of semiconductor statistics for bosons and fermions. It follows the approach of McKelvey.
General Concepts of Modeling Semiconductor Devices
27 Jun 2011 | Teaching Materials | Contributor(s): Dragica Vasileska, Gerhard Klimeck
This presentation is part of a series: Nanoelectronics and Modeling at the Nanoscale. It elucidates on the various methodologies needed for modeling semiconductor devices.
Physics of Current and Future Devices
This set of powerpoint slides is part of a series Nanoelectronics and Modeling at the Nanoscale. It gives a glimpse on effects that occur in current and future nanoscale devices that have to be properly captured with appropriate physical models.
Technology Trends as seen in Year 2011
24 Jun 2011 | Teaching Materials | Contributor(s): Dragica Vasileska, Gerhard Klimeck
In this presentations we discuss Nanotechnology Trends as seen in Year 2011.
Manual for the Generalized Bulk Monte Carlo Tool
24 Jun 2011 | Teaching Materials | Contributor(s): Raghuraj Hathwar, Dragica Vasileska
This manual describes the physics implemented behind the generalized bulk Monte Carlo tool.
Generalized Monte Carlo Presentation
20 Jun 2011 | Teaching Materials | Contributor(s): Dragica Vasileska
This presentation goes along with the Bulk Monte Carlo tool on the nanoHUB that calculates transients and steady-state velocity-field characteristics of arbitrary materials such as Si, Ge, GaAs, GaN, SiC, etc. The tool employs a non-parabolic bandstructure.
Scattering rates of confined carriers
Scattering rates of acoustic phonon scattering and interface roughness are described for a case of 1D confinement.
Low-dimensional structures
This set of slides describes some general properties of low-dimensional systems and their applications in nanoelectronics.