ECE 874: Physical Electronics - PowerPoint PPT Presentation

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ECE 874: Physical Electronics

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Lecture 21, 12 Nov 12 f(E) = probability = Fermi distribution function ECE 874: ... The Fermi (energy) level EF: 50% At T = 0K: f(E) at T above 0K: f(E) ... – PowerPoint PPT presentation

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Title: ECE 874: Physical Electronics


1
ECE 874Physical Electronics
  • Prof. Virginia Ayres
  • Electrical Computer Engineering
  • Michigan State University
  • ayresv_at_msu.edu

2
Lecture 21, 12 Nov 12
3
f(E) probability Fermi distribution function
Streetman and Banerjee, Solid State Electronic
Devices (Pierret Section 4.2 and Pr. 4.8)
4
The Fermi (energy) level EF
50
5
At T 0K
6
f(E) at T above 0K
7
f(E) at T above 0K
8
DOS available statesVersus f(E) and EF
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Approximation/limits on f(E)
Recall
Two conditions Temperature T E EF gt 0 E EF
lt 0
12
Restricting E to values for which there are
available states this is Two conditions Temper
ature T E EF gt 0, where E gt EC E EF lt 0,
where E lt EV
EC
Ei
EV
13
Two conditions gt Four conditions Temperature
T Degeneracy E EF gt 0 gt EF lt EC lt E versus
EC lt E lt EF
1. Non-degenerate n-type doping
2. Degenerate n-type doping
EF
EC
EC
EF
Ei
Ei
EV
EV
14
Four conditions Temperature T Degeneracy EF
E gt 0 gt E lt EC lt EV versus E lt EV lt EF
3. Non-degenerate p-type doping
4. Degenerate p-type doping
EC
EC
Ei
Ei
EF
EV
EV
EF
15
Approximation/limits on f(E)
16
Approximation/limits on f(E)
17
Approximation/limits on f(E)
Use the hot limit in ECE 874.
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