Quantum kinetics in transport and optics of semiconductors:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin
Springer
[2008]
|
| Ausgabe: | Second, substantially revised edition |
| Schriftenreihe: | Springer Series in solid state sciences
123 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIX, 360 Seiten Diagramme |
| ISBN: | 9783540735618 9783642092695 3540735615 |
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| 245 | 1 | 0 | |a Quantum kinetics in transport and optics of semiconductors |c Hartmut Haug, Antti-Pekka Jauho |
| 250 | |a Second, substantially revised edition | ||
| 264 | 1 | |a Berlin |b Springer |c [2008] | |
| 300 | |a XIX, 360 Seiten |b Diagramme | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Springer Series in solid state sciences |v 123 | |
| 650 | 4 | |a Quantentheorie | |
| 650 | 4 | |a Green's functions | |
| 650 | 4 | |a Quantum theory | |
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Datensatz im Suchindex
| _version_ | 1804137683957579776 |
|---|---|
| adam_text | Contents
Part I Introduction to Kinetics
and Many-Body Theory
Boltzmann Equation
...................................... 3
1.1
Heuristic Derivation
of the Semiclassical Boltzmann Equation
................ 3
1.2
Approach to Equilibrium: H-Theorem
................... 5
1.3
Linearization: Eigenfunction Expansion
.................. 8
Numerical Solutions of the Boltzmann Equation
.......... 11
2.1
Introduction
......................................... 11
2.2
Linearized Coulomb Boltzmann Kinetics
of a 2D Electron Gas
.................................. 12
2.3
Ensemble Monte Carlo Simulation
...................... 20
2.3.1
General Theory
............................... 20
2.3.2
Simulation of the Relaxation Kinetics
of a 2D Electron Gas
........................... 23
2.4
N+N~N+ Structure: Boltzmann Equation Analysis
...... 29
Equilibrium Green Function Theory
...................... 35
3.1
Second Quantization
.................................. 35
3.2
Density Matrix Equations:
An Elementary Derivation
of a Non-Markovian Quantum Kinetic Equation
.......... 38
3.3
Green Functions
...................................... 41
3.3.1
Examples of Measurable Quantities
.............. 43
3.4
Fluctuation-Dissipation Theorem
....................... 45
3.5
Perturbation Expansion of the Green Function
........... 47
3.6
Examples of Simple Solvable Models
.................... 50
3.6.1
Free-Particle Green Function
.................... 50
3.6.2
Resonant-Level Model
.......................... 50
XVI Contents
3.7
Self-Energy
.......................................... 52
3.7.1
Electron-Phonon Interaction
.................... 52
3.7.2
Elastic Impurity System: Impurity Averaging
..... 54
3.8
Finite Temperatures
.................................. 58
Part II Nonequilibrium Many-Body Theory
4
Contour-Ordered Green Functions
........................ 63
4.1
General Remarks
..................................... 63
4.2
Two Transformations
................................. 64
4.3
Analytic Continuation
................................. 69
5
Basic Quantum Kinetic Equations
........................ 75
5.1
Introductory Remarks
................................. 75
5.2
The Kadanoff-Baym Formulation
....................... 75
5.3
Keldysh Formulation
.................................. 77
6
Boltzmann Limit
......................................... 79
6.1
Gradient Expansion
................................... 79
6.2
Quasiparticle Approximation
........................... 81
6.3
Recovery of the Boltzmann Equation
.................... 82
7
Gauge
Invariance
......................................... 85
7.1
Choice of Variables
................................... 85
7.2
Gauge Invariant Quantum Kinetic Equation
............. 87
7.2.1
Driving Term
................................. 87
7.2.2
Collision Term
................................ 90
7.3
Retarded Green Function
.............................. 91
8
Quantum Distribution Functions
.......................... 93
8.1
Relation to
Observables,
and the Wigner Function
........ 93
8.2
Generalized
Kadanoff-Baym Ansatz .................... 94
8.3
Summary of the Main Formal Results
................... 97
Part III Quantum Transport
in Semiconductors
9
Linear Transport
......................................... 101
9.1
Quantum Boltzmann Equation
......................... 101
9.2
Linear Conductivity
of Electron-Elastic Impurity Systems
.................... 104
9.2.1
Kubo
Formula
................................ 105
9.2.2
Quantum Kinetic Formulation
................... 109
9.3
Weak Localization Corrections to Electrical Conductivity
..
Ill
Contents XVII
10
Field-Dependent Green Functions
........................ 115
10.1
Free Green Functions
and Spectral Functions in an Electric Field
.............. 115
10.2
A Model for Dynamical Disorder:
The Gaussian White Noise Model
...................... 121
10.2.1
Introduction
.................................. 121
10.2.2
Determination of the Retarded Green Function
.... 121
10.2.3
Kinetic Equation for the GWN
.................. 123
10.2.4
Other Transport Properties
..................... 127
10.3
Introduction to High-Field Transport in Semiconductors
... 129
10.4
Resonant-Level Model in High Electric Fields
............ 131
10.4.1
Introduction
.................................. 131
10.4.2
Retarded Green Function:
Single Impurity Problem
....................... 131
10.4.3
Retarded Green Function:
Dilute Concentration of Impurities
............... 133
10.4.4
Analytic Continuation
.......................... 140
10.4.5
Quantum Kinetic Equation
..................... 141
10.5
Quantum Kinetic Equation
for
Electr
on-P
honon
Systems
.......................... 144
10.6
An Application:
Collision Broadening for a Model Semiconductor
......... 148
10.6.1
Analytical Considerations
....................... 148
10.6.2
A Simple Model:
Optical Phonon Emission at
Τ
= 0............... 150
10.7
Spatially Inhomogeneous Systems
....................... 151
11
Optical Absorption in Intense THz Fields
................. 157
11.1
Introductory Remarks
................................. 157
11.2
Optical Absorption as a Response Function
.............. 158
11.3
Absorption Coefficient
................................ 162
11.4
Static Electric Field
................................... 163
11.5
Harmonically Varying External Electric Fields
........... 164
11.5.1
Joint Density of States, 2D
..................... 167
11.5.2
Joint Density of States,
3D ..................... 169
11.6
Dynamical Franz-Keldysh Effect: Excitonic Effects
....... 171
11.6.1
Matrix Truncation
............................. 172
11.6.2
Floquet Space Formulation
..................... 175
12
Transport in Mesoscopic Semiconductor Structures
....... 181
12.1
Introduction
......................................... 181
12.2
Nonequilibrium Techniques
in Mesoscopic Tunneling Structures
..................... 184
12.3
Model Hamiltonian
................................... 185
12.4
General Expression for the Current
..................... 186
XVIII
Contents
12.5
Current Conservation
................................. 191
12.6
Noninteracting Resonant-Level Model
................... 192
12.7
Density Functional Theory
and Modeling of Molecular Electronics
.................. 195
12.8
Resonant Tunneling
with Electron-Phonon Interactions
..................... 196
12.9
Transport in a Semiconductor Super lattice
............... 198
12.10
Transport in Atomic Gold Wires:
Signature of Coupling to Vibrational Modes
.............. 202
12.11
Transport Through a Coulomb Island
................... 205
13
Time-Dependent Phenomena
............................. 213
13.1
Introduction
......................................... 213
13.2
Applicability to Experiments
........................... 214
13.3
Mathematical Formulation
............................. 215
13.4
Average Current
...................................... 217
13.5
Time-Dependent Resonant-Level Model
................. 218
13.5.1
Response to Harmonic Modulation
............... 221
13.5.2
Response to Step-Like Modulation
............... 224
13.6
Linear-Response
...................................... 227
13.7
Fluctuating Energy Levels
............................. 229
13.8
Noise
............................................... 230
13.8.1
The Disconnected Terms
....................... 235
13.8.2
The Connected Terms
.......................... 236
Part IV Theory of Ultrafast Kinetics
in Laser-Excited Semiconductors
14
Optical Free-Carrier
Interband
Kinetics
in Semiconductors
........................................ 243
14.1
Interband
Transitions in Direct-Gap Semiconductors
...... 243
14.1.1
Reduced Density Matrices
...................... 243
14.1.2
Nonequilibrium Green Functions
................. 245
14.1.3
Calculations of the Two-Time-Dependent
Nonequilibrium Green Function
................. 245
14.1.4
Replacement of Two-Time Propagators
by a One-Time Density Matrix
and a Two-Time Spectral Function
.............. 246
14.2
Free-Carrier Kinetics Under Laser-Pulse Excitation
....... 251
14.3
The Optical Free-Carrier Bloch Equations
............... 255
15
Interband
Quantum Kinetics with LO-Phonon Scattering
. 259
15.1
Derivation of the Inter band Quantum Kinetic Equations
... 259
15.2
The Spectral Green Functions
GJ,„
and
G&ßV ............. 266
Contents XIX
15.2.1
Free-Particle Retarded Green Function
........... 266
15.2.2
Retarded GF in the Mean-Field Approximation
. .. 267
15.2.3
Spectra of Retarded Gfs
........................ 269
15.2.4
Dephasing of Retarded Green Functions
.......... 274
15.3
Intraband Relaxation
................................. 279
15.4
Interband-Polarization Dephasing
....................... 281
15.5
Numerical Strategies
.................................. 283
16
Two-Pulse Spectroscopy
.................................. 287
16.1
Introductory Remarks
................................. 287
16.2
Thin Samples
........................................ 289
16.3
Low-Intensity Two-Beam Experiments
.................. 290
16.3.1
LO-Phonon Relaxation Cascades
................ 291
16.3.2
LO-Phonon Quantum Beats in FWM
............ 292
16.3.3
Two-Time Electron-Phonon Quantum Kinetics
___ 294
17
Coulomb Quantum Kinetics
in a Dense Electron—Hole Plasma
......................... 301
17.1
Introduction
......................................... 301
17.2
Screening in the Nonequilibrium GF Theory
............. ,402
17.3
Coulomb Quantum Kinetics
............................ 306
17.4
Plasmon-Pole Approximation
for the Two-Time-Dependent Potential
.................. 309
17.4.1
Parametric Plasma Oscillations
.................. 311
17.4.2
Instantaneous Static Potential Approximation
..... 313
18
The Buildup of Screening
................................. 317
18.1
Screening of the Coulomb Interaction
................... 317
18.1.1
Calculations of the Two-Time-Dependent
Screened Potential
............................. 318
18.1.2
Femtosecond Optical Pump
and THz Probe Spectroscopy
................... 320
18.2
Time-Dependent Screening of Phonon-Mediated
and Coulomb Interactions
............................. 320
18.2.1
Buildup of the Phonon-Plasmon Mixed Modes
___ 324
19
Femtosecond Four-Wave Mixing with Dense Plasmas
..... 331
19.1
Time-Resolved Four-Wave Mixing
...................... 331
19.2
Time-Integrated Four-Wave Mixing
..................... 334
19.3
Four-Wave Mixing with Coherent Control
............... 335
References
.................................................... 341
Index
......................................................... 353
|
| adam_txt |
Contents
Part I Introduction to Kinetics
and Many-Body Theory
Boltzmann Equation
. 3
1.1
Heuristic Derivation
of the Semiclassical Boltzmann Equation
. 3
1.2
Approach to Equilibrium: H-Theorem
. 5
1.3
Linearization: Eigenfunction Expansion
. 8
Numerical Solutions of the Boltzmann Equation
. 11
2.1
Introduction
. 11
2.2
Linearized Coulomb Boltzmann Kinetics
of a 2D Electron Gas
. 12
2.3
Ensemble Monte Carlo Simulation
. 20
2.3.1
General Theory
. 20
2.3.2
Simulation of the Relaxation Kinetics
of a 2D Electron Gas
. 23
2.4
N+N~N+ Structure: Boltzmann Equation Analysis
. 29
Equilibrium Green Function Theory
. 35
3.1
Second Quantization
. 35
3.2
Density Matrix Equations:
An Elementary Derivation
of a Non-Markovian Quantum Kinetic Equation
. 38
3.3
Green Functions
. 41
3.3.1
Examples of Measurable Quantities
. 43
3.4
Fluctuation-Dissipation Theorem
. 45
3.5
Perturbation Expansion of the Green Function
. 47
3.6
Examples of Simple Solvable Models
. 50
3.6.1
Free-Particle Green Function
. 50
3.6.2
Resonant-Level Model
. 50
XVI Contents
3.7
Self-Energy
. 52
3.7.1
Electron-Phonon Interaction
. 52
3.7.2
Elastic Impurity System: Impurity Averaging
. 54
3.8
Finite Temperatures
. 58
Part II Nonequilibrium Many-Body Theory
4
Contour-Ordered Green Functions
. 63
4.1
General Remarks
. 63
4.2
Two Transformations
. 64
4.3
Analytic Continuation
. 69
5
Basic Quantum Kinetic Equations
. 75
5.1
Introductory Remarks
. 75
5.2
The Kadanoff-Baym Formulation
. 75
5.3
Keldysh Formulation
. 77
6
Boltzmann Limit
. 79
6.1
Gradient Expansion
. 79
6.2
Quasiparticle Approximation
. 81
6.3
Recovery of the Boltzmann Equation
. 82
7
Gauge
Invariance
. 85
7.1
Choice of Variables
. 85
7.2
Gauge Invariant Quantum Kinetic Equation
. 87
7.2.1
Driving Term
. 87
7.2.2
Collision Term
. 90
7.3
Retarded Green Function
. 91
8
Quantum Distribution Functions
. 93
8.1
Relation to
Observables,
and the Wigner Function
. 93
8.2
Generalized
Kadanoff-Baym Ansatz . 94
8.3
Summary of the Main Formal Results
. 97
Part III Quantum Transport
in Semiconductors
9
Linear Transport
. 101
9.1
Quantum Boltzmann Equation
. 101
9.2
Linear Conductivity
of Electron-Elastic Impurity Systems
. 104
9.2.1
Kubo
Formula
. 105
9.2.2
Quantum Kinetic Formulation
. 109
9.3
Weak Localization Corrections to Electrical Conductivity
.
Ill
Contents XVII
10
Field-Dependent Green Functions
. 115
10.1
Free Green Functions
and Spectral Functions in an Electric Field
. 115
10.2
A Model for Dynamical Disorder:
The Gaussian White Noise Model
. 121
10.2.1
Introduction
. 121
10.2.2
Determination of the Retarded Green Function
. 121
10.2.3
Kinetic Equation for the GWN
. 123
10.2.4
Other Transport Properties
. 127
10.3
Introduction to High-Field Transport in Semiconductors
. 129
10.4
Resonant-Level Model in High Electric Fields
. 131
10.4.1
Introduction
. 131
10.4.2
Retarded Green Function:
Single Impurity Problem
. 131
10.4.3
Retarded Green Function:
Dilute Concentration of Impurities
. 133
10.4.4
Analytic Continuation
. 140
10.4.5
Quantum Kinetic Equation
. 141
10.5
Quantum Kinetic Equation
for
Electr
on-P
honon
Systems
. 144
10.6
An Application:
Collision Broadening for a Model Semiconductor
. 148
10.6.1
Analytical Considerations
. 148
10.6.2
A Simple Model:
Optical Phonon Emission at
Τ
= 0. 150
10.7
Spatially Inhomogeneous Systems
. 151
11
Optical Absorption in Intense THz Fields
. 157
11.1
Introductory Remarks
. 157
11.2
Optical Absorption as a Response Function
. 158
11.3
Absorption Coefficient
. 162
11.4
Static Electric Field
. 163
11.5
Harmonically Varying External Electric Fields
. 164
11.5.1
Joint Density of States, 2D
. 167
11.5.2
Joint Density of States,
3D . 169
11.6
Dynamical Franz-Keldysh Effect: Excitonic Effects
. 171
11.6.1
Matrix Truncation
. 172
11.6.2
Floquet Space Formulation
. 175
12
Transport in Mesoscopic Semiconductor Structures
. 181
12.1
Introduction
. 181
12.2
Nonequilibrium Techniques
in Mesoscopic Tunneling Structures
. 184
12.3
Model Hamiltonian
. 185
12.4
General Expression for the Current
. 186
XVIII
Contents
12.5
Current Conservation
. 191
12.6
Noninteracting Resonant-Level Model
. 192
12.7
Density Functional Theory
and Modeling of Molecular Electronics
. 195
12.8
Resonant Tunneling
with Electron-Phonon Interactions
. 196
12.9
Transport in a Semiconductor Super lattice
. 198
12.10
Transport in Atomic Gold Wires:
Signature of Coupling to Vibrational Modes
. 202
12.11
Transport Through a Coulomb Island
. 205
13
Time-Dependent Phenomena
. 213
13.1
Introduction
. 213
13.2
Applicability to Experiments
. 214
13.3
Mathematical Formulation
. 215
13.4
Average Current
. 217
13.5
Time-Dependent Resonant-Level Model
. 218
13.5.1
Response to Harmonic Modulation
. 221
13.5.2
Response to Step-Like Modulation
. 224
13.6
Linear-Response
. 227
13.7
Fluctuating Energy Levels
. 229
13.8
Noise
. 230
13.8.1
The Disconnected Terms
. 235
13.8.2
The Connected Terms
. 236
Part IV Theory of Ultrafast Kinetics
in Laser-Excited Semiconductors
14
Optical Free-Carrier
Interband
Kinetics
in Semiconductors
. 243
14.1
Interband
Transitions in Direct-Gap Semiconductors
. 243
14.1.1
Reduced Density Matrices
. 243
14.1.2
Nonequilibrium Green Functions
. 245
14.1.3
Calculations of the Two-Time-Dependent
Nonequilibrium Green Function
. 245
14.1.4
Replacement of Two-Time Propagators
by a One-Time Density Matrix
and a Two-Time Spectral Function
. 246
14.2
Free-Carrier Kinetics Under Laser-Pulse Excitation
. 251
14.3
The Optical Free-Carrier Bloch Equations
. 255
15
Interband
Quantum Kinetics with LO-Phonon Scattering
. 259
15.1
Derivation of the Inter band Quantum Kinetic Equations
. 259
15.2
The Spectral Green Functions
GJ,„
and
G&ßV . 266
Contents XIX
15.2.1
Free-Particle Retarded Green Function
. 266
15.2.2
Retarded GF in the Mean-Field Approximation
. . 267
15.2.3
Spectra of Retarded Gfs
. 269
15.2.4
Dephasing of Retarded Green Functions
. 274
15.3
Intraband Relaxation
. 279
15.4
Interband-Polarization Dephasing
. 281
15.5
Numerical Strategies
. 283
16
Two-Pulse Spectroscopy
. 287
16.1
Introductory Remarks
. 287
16.2
Thin Samples
. 289
16.3
Low-Intensity Two-Beam Experiments
. 290
16.3.1
LO-Phonon Relaxation Cascades
. 291
16.3.2
LO-Phonon Quantum Beats in FWM
. 292
16.3.3
Two-Time Electron-Phonon Quantum Kinetics
_ 294
17
Coulomb Quantum Kinetics
in a Dense Electron—Hole Plasma
. 301
17.1
Introduction
. 301
17.2
Screening in the Nonequilibrium GF Theory
. ,402
17.3
Coulomb Quantum Kinetics
. 306
17.4
Plasmon-Pole Approximation
for the Two-Time-Dependent Potential
. 309
17.4.1
Parametric Plasma Oscillations
. 311
17.4.2
Instantaneous Static Potential Approximation
. 313
18
The Buildup of Screening
. 317
18.1
Screening of the Coulomb Interaction
. 317
18.1.1
Calculations of the Two-Time-Dependent
Screened Potential
. 318
18.1.2
Femtosecond Optical Pump
and THz Probe Spectroscopy
. 320
18.2
Time-Dependent Screening of Phonon-Mediated
and Coulomb Interactions
. 320
18.2.1
Buildup of the Phonon-Plasmon Mixed Modes
_ 324
19
Femtosecond Four-Wave Mixing with Dense Plasmas
. 331
19.1
Time-Resolved Four-Wave Mixing
. 331
19.2
Time-Integrated Four-Wave Mixing
. 334
19.3
Four-Wave Mixing with Coherent Control
. 335
References
. 341
Index
. 353 |
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| any_adam_object_boolean | 1 |
| author | Haug, Hartmut 1936- Jauho, Antti-Pekka |
| author_GND | (DE-588)106263366 |
| author_facet | Haug, Hartmut 1936- Jauho, Antti-Pekka |
| author_role | aut aut |
| author_sort | Haug, Hartmut 1936- |
| author_variant | h h hh a p j apj |
| building | Verbundindex |
| bvnumber | BV023332145 |
| callnumber-first | Q - Science |
| callnumber-label | QC611 |
| callnumber-raw | QC611.6.O6 |
| callnumber-search | QC611.6.O6 |
| callnumber-sort | QC 3611.6 O6 |
| callnumber-subject | QC - Physics |
| classification_rvk | UP 1100 UP 3200 |
| ctrlnum | (OCoLC)176628667 (DE-599)BVBBV023332145 |
| dewey-full | 537.6/226 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 537 - Electricity and electronics |
| dewey-raw | 537.6/226 |
| dewey-search | 537.6/226 |
| dewey-sort | 3537.6 3226 |
| dewey-tens | 530 - Physics |
| discipline | Physik |
| discipline_str_mv | Physik |
| edition | Second, substantially revised edition |
| format | Book |
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| id | DE-604.BV023332145 |
| illustrated | Not Illustrated |
| index_date | 2024-07-02T20:58:04Z |
| indexdate | 2024-07-09T21:16:05Z |
| institution | BVB |
| isbn | 9783540735618 9783642092695 3540735615 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016516053 |
| oclc_num | 176628667 |
| open_access_boolean | |
| owner | DE-355 DE-BY-UBR DE-703 DE-19 DE-BY-UBM DE-83 DE-20 DE-11 DE-384 |
| owner_facet | DE-355 DE-BY-UBR DE-703 DE-19 DE-BY-UBM DE-83 DE-20 DE-11 DE-384 |
| physical | XIX, 360 Seiten Diagramme |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Springer |
| record_format | marc |
| series | Springer Series in solid state sciences |
| series2 | Springer Series in solid state sciences |
| spelling | Haug, Hartmut 1936- Verfasser (DE-588)106263366 aut Quantum kinetics in transport and optics of semiconductors Hartmut Haug, Antti-Pekka Jauho Second, substantially revised edition Berlin Springer [2008] XIX, 360 Seiten Diagramme txt rdacontent n rdamedia nc rdacarrier Springer Series in solid state sciences 123 Quantentheorie Green's functions Quantum theory Semiconductors Optical properties Nichtgleichgewicht (DE-588)4171730-2 gnd rswk-swf Halbleiter (DE-588)4022993-2 gnd rswk-swf Green-Funktion (DE-588)4158123-4 gnd rswk-swf Quantenmechanisches System (DE-588)4300046-0 gnd rswk-swf Ultrakurzzeitspektroskopie (DE-588)4209051-9 gnd rswk-swf Transportprozess (DE-588)4185932-7 gnd rswk-swf Kinetische Theorie (DE-588)4030669-0 gnd rswk-swf Quasiklassische Entwicklung (DE-588)4318600-2 gnd rswk-swf Halbleiter (DE-588)4022993-2 s Quantenmechanisches System (DE-588)4300046-0 s Kinetische Theorie (DE-588)4030669-0 s Quasiklassische Entwicklung (DE-588)4318600-2 s DE-604 Transportprozess (DE-588)4185932-7 s Nichtgleichgewicht (DE-588)4171730-2 s Green-Funktion (DE-588)4158123-4 s 1\p DE-604 Ultrakurzzeitspektroskopie (DE-588)4209051-9 s 2\p DE-604 Jauho, Antti-Pekka Verfasser aut Springer Series in solid state sciences 123 (DE-604)BV000016582 123 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016516053&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Haug, Hartmut 1936- Jauho, Antti-Pekka Quantum kinetics in transport and optics of semiconductors Springer Series in solid state sciences Quantentheorie Green's functions Quantum theory Semiconductors Optical properties Nichtgleichgewicht (DE-588)4171730-2 gnd Halbleiter (DE-588)4022993-2 gnd Green-Funktion (DE-588)4158123-4 gnd Quantenmechanisches System (DE-588)4300046-0 gnd Ultrakurzzeitspektroskopie (DE-588)4209051-9 gnd Transportprozess (DE-588)4185932-7 gnd Kinetische Theorie (DE-588)4030669-0 gnd Quasiklassische Entwicklung (DE-588)4318600-2 gnd |
| subject_GND | (DE-588)4171730-2 (DE-588)4022993-2 (DE-588)4158123-4 (DE-588)4300046-0 (DE-588)4209051-9 (DE-588)4185932-7 (DE-588)4030669-0 (DE-588)4318600-2 |
| title | Quantum kinetics in transport and optics of semiconductors |
| title_auth | Quantum kinetics in transport and optics of semiconductors |
| title_exact_search | Quantum kinetics in transport and optics of semiconductors |
| title_exact_search_txtP | Quantum kinetics in transport and optics of semiconductors |
| title_full | Quantum kinetics in transport and optics of semiconductors Hartmut Haug, Antti-Pekka Jauho |
| title_fullStr | Quantum kinetics in transport and optics of semiconductors Hartmut Haug, Antti-Pekka Jauho |
| title_full_unstemmed | Quantum kinetics in transport and optics of semiconductors Hartmut Haug, Antti-Pekka Jauho |
| title_short | Quantum kinetics in transport and optics of semiconductors |
| title_sort | quantum kinetics in transport and optics of semiconductors |
| topic | Quantentheorie Green's functions Quantum theory Semiconductors Optical properties Nichtgleichgewicht (DE-588)4171730-2 gnd Halbleiter (DE-588)4022993-2 gnd Green-Funktion (DE-588)4158123-4 gnd Quantenmechanisches System (DE-588)4300046-0 gnd Ultrakurzzeitspektroskopie (DE-588)4209051-9 gnd Transportprozess (DE-588)4185932-7 gnd Kinetische Theorie (DE-588)4030669-0 gnd Quasiklassische Entwicklung (DE-588)4318600-2 gnd |
| topic_facet | Quantentheorie Green's functions Quantum theory Semiconductors Optical properties Nichtgleichgewicht Halbleiter Green-Funktion Quantenmechanisches System Ultrakurzzeitspektroskopie Transportprozess Kinetische Theorie Quasiklassische Entwicklung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016516053&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV000016582 |
| work_keys_str_mv | AT haughartmut quantumkineticsintransportandopticsofsemiconductors AT jauhoanttipekka quantumkineticsintransportandopticsofsemiconductors |