ECE 535

ECE 535 - Theory of Semiconductors and Semiconductor Devices

Fall 2021

TitleRubricSectionCRNTypeHoursTimesDaysLocationInstructor
Theory of Semicond & DevicesECE535E37127DIS41300 - 1350 M W F  1013 Electrical & Computer Eng Bldg Jean-Pierre Leburton
Theory of Semicond & DevicesECE535ONL75751OD41300 - 1350 M W F    Jean-Pierre Leburton
Theory of Semicond & DevicesPHYS565E37128DIS41300 - 1350 M W F  1013 Electrical & Computer Eng Bldg Jean-Pierre Leburton
Theory of Semicond & DevicesPHYS565ONL75752OD41300 - 1350 M W F    Jean-Pierre Leburton

Official Description

Introductory quantum mechanics of semiconductors; energy bands; dynamics of Block electrons in static and high-frequency electric and magnetic fields; equilibrium statistics; transport theory, diffusion, drift, and thermoelectric effects; characteristics of p-n junctions, heterojunctions, and transistor devices. Course Information: Same as PHYS 565. Prerequisite: Senior-level course in quantum mechanics or atomic physics.

Subject Area

  • Microelectronics and Photonics

Description

Introductory quantum mechanics of semiconductors; energy bands; dynamics of Block electrons in static and high-frequency electric and magnetic fields; equilibrium statistics; transport theory, diffusion, drift and thermoelectric effects; and characteristics of p-n junctions, heterojunctions, and transistor devices.

Prerequisites:

  • ECE 340 or equivalent Solid State Electronics course
  • PHYS 486 or Equivalent Quantum Mechanics course

Notes

Same as PHYS 565.

Topics

  • Review of basic quantum mechanics
  • Lattice vibrations
  • Symmetry of crystal and band theory
  • Carrier statistics
  • Scattering theory and Boltzmann equation
  • Generation recombination
  • Device equations
  • Heterojunction
  • Diodes
  • Transistors
  • Electron dynamics, III: recombination-generation-trapping: general classifications via physical models; kinetics of selected mechanisms, thermal, optical, interband, band-impurity transitions, Auger processes

Detailed Description and Outline

Topics:

  • Review of basic quantum mechanics
  • Lattice vibrations
  • Symmetry of crystal and band theory
  • Carrier statistics
  • Scattering theory and Boltzmann equation
  • Generation recombination
  • Device equations
  • Heterojunction
  • Diodes
  • Transistors
  • Electron dynamics, III: recombination-generation-trapping: general classifications via physical models; kinetics of selected mechanisms, thermal, optical, interband, band-impurity transitions, Auger processes

Same as PHYS 535.

Texts

K. Hess, Advanced Theory of Semiconductor Devices, Prentice-Hall.
Class notes.

Last updated

8/6/2020