Quantum Mechanics Solution Manual
© Leon van Dommelen
Next:
6.1 Intro to Particles in a Box
6
. Macroscopic Systems
Subsections
6
.
1
Intro to Particles in a Box
6
.
2
The Single-Particle States
6
.
3
Density of States
6
.
4
Ground State of a System of Bosons
6
.
5
About Temperature
6
.
6
Bose-Einstein Condensation
6
.
6
.
1
Rough explanation of the condensation
6
.
7
Bose-Einstein Distribution
6
.
8
Blackbody Radiation
6
.
9
Ground State of a System of Electrons
6
.
10
Fermi Energy of the Free-Electron Gas
6
.
11
Degeneracy Pressure
6
.
12
Confinement and the DOS
6
.
13
Fermi-Dirac Distribution
6
.
14
Maxwell-Boltzmann Distribution
6
.
15
Thermionic Emission
6
.
16
Chemical Potential and Diffusion
6
.
17
Intro to the Periodic Box
6
.
18
Periodic Single-Particle States
6
.
19
DOS for a Periodic Box
6
.
20
Intro to Electrical Conduction
6
.
21
Intro to Band Structure
6
.
21
.
1
Metals and insulators
6
.
21
.
2
Typical metals and insulators
6
.
21
.
3
Semiconductors
6
.
21
.
4
Semimetals
6
.
21
.
5
Electronic heat conduction
6
.
21
.
6
Ionic conductivity
6
.
22
Electrons in Crystals
6
.
22
.
1
Bloch waves
6
.
22
.
2
Example spectra
6
.
22
.
3
Effective mass
6
.
22
.
4
Crystal momentum
6
.
22
.
5
Three-dimensional crystals
6
.
23
Semiconductors
6
.
24
The
P-N
Junction
6
.
25
The Transistor
6
.
26
Zener and Avalanche Diodes
6
.
27
Optical Applications
6
.
27
.
1
Atomic spectra
6
.
27
.
2
Spectra of solids
6
.
27
.
3
Band gap effects
6
.
27
.
4
Effects of crystal imperfections
6
.
27
.
5
Photoconductivity
6
.
27
.
6
Photovoltaic cells
6
.
27
.
7
Light-emitting diodes
6
.
28
Thermoelectric Applications
6
.
28
.
1
Peltier effect
6
.
28
.
2
Seebeck effect
6
.
28
.
3
Thomson effect
Next:
6.1 Intro to Particles in a Box
FAMU-FSU College of Engineering
Processed with l2h