## Semiconductor Device Physics

### Graduate Courses

**Solid State Devices**

**ECE 606 at Purdue University (2012) ** 26 Lectures.

Taught by Gerhard Klimeck

Selected Topics: crystal classification, quantum mechanics, bandstructures, density of states, Schrodinger’s Equation, intrinsic semiconductors, p-n junctions, bipolar transistors, p-n diode characteristics/ AC response, MOS electrostatics, MOScap, MOSFET

**Principles of Semiconductor Devices**

**ECE 606 at Purdue University (2008) ** 42 Lectures.

Taught by Muhammad A. Alam

Selected Topics: device physics, devices, transistors, periodic crystals, quantum mechanics, energy bands, density of states, equilibrium statistics/concentrations, bulk recombination, carrier transport, hall effect, diffusion, continuity equations, Schottky Diode, BJT, heterojunction, MOS, MOSFET characteristics

**Solid State Electronic Devices**

**ECE 440 at University of Illinois at Urbana-Champaign (2008) ** 38 Lectures.

Taught by Eric Pop

Selected Topics: p-n junctions, bipolar transistors, field effect transistors, crystal lattices, energy bands, carrier statistics, drift, doping semiconductors, carrier concentrations, optical absorption, photoconductivity, diffusion, P-N Diode, BJT, MOS, MOSFET

**Solid State Electronic Devices Homework Assignments**

**ECE 440 University of Illinois at Urbana-Champaign (2009) **

Taught by Mohamed Mohamed

Selected Topics: crystal lattices, energy bands, carrier statistics, drift, doping semiconductors, optical absorption, diffusion, P-N Diode, BJT, MOS, MOSFET

**Electronic Transport in Semiconductors**

**ECE 656 at Purdue University (2009) ** 36 Lectures.

Taught by Mark Lundstrom

Selected Topics: near-equilibrium transport, Landauer approach, Boltzman equation, percolative transport, carrier scattering, relaxation times, Monte Carlo simulation, off-equilibrium transport, quantum transport

**Electronic Transport in Semiconductors**

**ECE 656 at Purdue University (2011) ** 41 Lectures.

Taught by Mark Lundstrom

Selected Topics: carrier transport, k-space, resistance, thermoelectric effects, drift-diffusion, Boltzmann transport (BTE), magnetic fields, transmission and back scattering, photon scattering, Monte Carlo Simulation, High-field transport, non-local transport, Ensemble Effects, Ballistic Transport