Advancing the State of the Art in Semiconductor Technology Through Predictive Atomistic Calculations - Lecture 35

Advancing the State of the Art in Semiconductor Technology Through Predictive Atomistic Calculations - Lecture 35

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Summary and Acknowledgements

28 of 29

28 of 29

Summary and Acknowledgements

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Advancing the State of the Art in Semiconductor Technology Through Predictive Atomistic Calculations - Lecture 35

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  1. 1 35TH DISTINGUISHED LECTURE
  2. 2 Semiconductors: a timeless problem for electron
  3. 3 Semiconductors: a timeless problem for energy
  4. 4 Semiconductors: a timely problem
  5. 5 Quantum processes in semiconductor devices
  6. 6 Workflow for phonon-mediated quantum process
  7. 7 Overview
  8. 8 Need for phonon-assisted optics
  9. 9 Quantum theory of optical absorption
  10. 10 Challenge: interpolation over Brillouin zone
  11. 11 Phonon-assisted optical absorption in silicon
  12. 12 Other semiconductors: BAs
  13. 13 Doped semiconductors: silicon
  14. 14 Absorption in transparent conducting oxides
  15. 15 Introduction to Auger-Meitner recombination
  16. 16 On the naming of Auger-Meitner recombinati
  17. 17 Auger-Meitner recombination in silicon
  18. 18 Problems with nitride LEDs
  19. 19 Ultra-wide-band-gap semiconductors
  20. 20 Example: deep vs. shallow defects
  21. 21 Challenges with diamond, cBN: dopants, mob
  22. 22 Challenges with AlGaN: alloy-disorder scatteri
  23. 23 Alloy disorder limits the mobility of AlGaN
  24. 24 Band structure of rutile GeO₂
  25. 25 Defect calculation method
  26. 26 Baliga Figure of Merit
  27. 27 First epitaxial thin films
  28. 28 Summary and Acknowledgements
  29. 29 Co-doping acceptors with Hydrogen

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