Problems of condensed matter physics: quantum coherence phenomena in electron-hole and coupled matter-light systems
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Oxford [u.a.]
Oxford Univ. Press
2008
|
| Ausgabe: | 1. publ. |
| Schriftenreihe: | International series of monographs on physics
139 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XII, 358 S. Ill., graph. Darst. |
| ISBN: | 9780199238873 0199238871 |
Internformat
MARC
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| 245 | 1 | 0 | |a Problems of condensed matter physics |b quantum coherence phenomena in electron-hole and coupled matter-light systems |c ed. by Alexei L. Ivanov ... |
| 250 | |a 1. publ. | ||
| 264 | 1 | |a Oxford [u.a.] |b Oxford Univ. Press |c 2008 | |
| 300 | |a XII, 358 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a International series of monographs on physics |v 139 | |
| 650 | 4 | |a Condensed matter | |
| 650 | 0 | 7 | |a Kondensierte Materie |0 (DE-588)4132810-3 |2 gnd |9 rswk-swf |
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| 689 | 0 | 0 | |a Kondensierte Materie |0 (DE-588)4132810-3 |D s |
| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Ivanov, Alexei L. |e Sonstige |4 oth | |
| 830 | 0 | |a International series of monographs on physics |v 139 |w (DE-604)BV000106406 |9 139 | |
| 856 | 4 | 2 | |m Digitalisierung UB Regensburg |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015992699&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
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Datensatz im Suchindex
| _version_ | 1804137051328610304 |
|---|---|
| adam_text | CONTENTS
Preface
1
1
Recollections
Elias Burstein 7
2
Once again on the Physical Minimum
V. L. Ginzburg
11
References
22
3
Hybrid organic-inorganic nanostructures and light-matter
interaction
V. M. Agranovich
24
3.1
Introduction: Hybrid organic-inorganic nanostructures
24
3.1.1
Excitons
in inorganic and organic materials
26
3.2
Strong coupling regime
27
3.2.1
Hybrid 2D Frenkel-Wannier-Mott
excitons
at the in¬
terface of organic and inorganic quantum wells
27
3.2.2
Hybridization of Prenkel and W-M
excitons
in a 2D
microcavity
30
3.2.3
Giant
Rabi
splitting in organic microcavities
31
3.3
Weak coupling regime in hybrid nanostructures
32
3.3.1
The
Förster
energy transfer
32
3.3.2 Förster
energy transfer in a planar geometry
33
3.3.3
Non-contact pumping of light emitters via nonradia-
tive energy transfer: A new concept for light-emitting
devices
35
3.3.4
First experiments
36
References
40
4
The acoustic-wave driven quantum processor
C. H. W. Barnes and M. Pepper
43
4.1
Introduction
43
4.2
Variable ^-factor materials
44
4.3
Two-qubit gate
46
4.4
Optical readout
46
4.5
Optical input
47
4.6
The optical quantum-state processor
47
4.7
Summary
48
References
49
Contents
On the problem of many-body localization
D. M. Basko, I. L. Aleiner and B. L. Altshuler
50
5.1
Introduction
50
5.2
Background and formulation of the problem
53
5.2.1
Non-interacting electrons in disorder potential
53
5.2.2
Role of inelastic processes and phonon-assisted hop¬
ping
54
5.2.3
Inelastic relaxation due to electron-electron interac¬
tion
54
5.3
Finite-temperature metal-insulator transition
55
5.3.1
Matrix elements of electron-electron interaction be¬
tween localized states: essential features of the model
55
5.3.2
Many-electron transitions and Fock space
56
5.3.3
Statistics of the transition rates
59
5.3.4
Self-consistent Born approximation
60
5.3.5
Metallic phase
62
5.3.6
Insulating phase
62
5.4
Metal-insulator transition and many-body mobility edge
64
5.5
Conclusions and perspectives
66
References
68
Raman scattering by
LO phonons
in semiconductors: The
role of the Franz—Keldysh effect
Elias Burstein 70
6.1
Introduction
70
6.2
Observation of forbidden
LO
phonon scattering at surface of
n-InSb
72
6.3
Role of the Franz-Keldysh effect in Raman scattering by
LO
phonons
75
6.4
Electric field-induced scattering by odd parity
LO
phonons
76
6.5
Microscopic theory of electric field-induced Raman scattering
by
LO
phonons
77
6.6
Raman scattering by
LO
phonons in crossed electric and mag¬
netic fields
79
6.7
Concluding remarks
81
References
82
Phenomena in cold exciton gases: From theory to experi¬
ments
L. V. Butov
83
7.1
Introduction
83
7.2
Stimulated kinetics of
excitons
86
7.3
Pattern formation in the exciton system
88
7.3.1
The inner exciton ring
91
7.3.2
The external exciton ring
93
Contents ix
7.3.3
The localized bright spots
94
7.3.4
The macroscopically ordered exciton state
94
References
98
8
Composite
fermions
and the fractional quantum Hall effect
in a two-dimensional electron system
I. V. Kukushkin, J. H.
Smet
and K.
von Klitzing 101
8.1
Fractional quantum Hall effect
101
8.2
Composite
fermions
in a nutshell
103
8.3
Experimental proof for the existence of composite
fermions
104
8.4
Cyclotron resonance of composite
fermions
107
8.5
Outlook
113
References
114
9
Microcavities with quantum dots: Weak and strong cou¬
pling regimes
V. D. Kulakovskii and A. Forchel
115
9.1
Introduction
115
9.2
Experiment
119
9.3 MC
pillar emission
121
9.4
Weak coupling regime:
Purceii
effect
123
9.5 MC
emission: Theory
127
9.6
Fit of the
MC
emission spectra: Weak and strong coupling
regimes
130
9.7
Conclusions
132
References
132
10
Dynamics of cold
excitons
and electron—hole ensembles in
direct-gap semiconductors studied by mid-infrared pump
and probe spectroscopy
Makoto Kuwata-Gonokami
135
10.1
Introduction
135
10.2
Electron-hole liquid formation via exciton resonant excitation
in CuCl
137
10.2.1
Search for EHL phase in direct gap semiconductors
137
10.2.2
Time-resolved
photoluminescence
measurements under
resonant excitation of
excitons
above
Mott
transition
density
139
10.2.3
Mid-infrared transient reflection spectroscopy
139
10.2.4
Discussion: Electron-hole antidroplet formation
144
10.3
Excitonic Lyman spectroscopy in Cu^O
145
10.3.1
Search for exciton
ВЕС
145
10.3.2
Excitons
in Cu2O
146
10.3.3
Excitonic Lyman transition
147
10.3.4
Time-resolved excitonic Lyman spectroscopy
149
x
Contents
10.3.5
Exciton cold collision and ortho- to paraexciton con¬
version
157
10.4
Conclusion
159
References
160
11
Exciton coherence
P. B. Littlewood
163
11.1
Introduction
163
11.2
Excitonic instability of a semiconductor: Elementary concepts
166
11.2.1
Keldysh mean field theory
167
11.2.2
Pseudospins and two-level system analogies
169
11.3
Some other physical systems
170
11.3.1
ВЕС
of quantum magnets
170
11.3.2
Quantum Hall bilayers
171
11.3.3
Polaritons
172
11.4
Further symmetry breaking, superfluidity, and decoherence
174
11.4.1
Lattice effects and relation to charge density waves
174
11.4.2
Dynamics and decoherence
176
11.5
Conclusion
177
References
178
12
Inelastic light scattering by low-lying excitations of quan¬
tum Hall fluids
Vittorio Pellegrini
and
Aron
Pinczuk
182
12.1
Introduction
182
12.2
Inelastic light scattering by low-dimensional electron systems
183
12.3
Light scattering in the quantum Hall regimes
186
12.4
Charge and spin excitations at
ν
= 1/3 189
12.5
Spin-flip excitations at
ν
= 2/5 189
12.6
Spin excitations in double layers at
ν
— 1 190
12.7
Overview of recent results
191
12.8
Concluding remarks
194
References
195
13
Remarks on surface-atom forces in London and Lifshitz
limits
L. P. Pitaevskii
197
13.1
Introduction
197
13.2
Atom-surface energy
198
13.3
Longitudinal Green s function
199
13.4
Conclusion
201
References
201
14
Modern trends in semiconductor spintronics
Emmanuel I. Rashba
203
14.1
Introduction
203
Contents xi
14.2
Electrical spin operation
204
14.3
Spin interference phenomena
205
14.4
Spin injection: Optical and electrical
206
14.5
Transport in media with spin-orbit coupling
208
14.6
Macro- and mesoscopic spin Hall effect
209
14.7
Related systems
210
References
211
15
Excitonic insulators, electron—hole liquids and metal—insulator
transitions
T. Maurice Rice
214
15.1
Introduction
214
15.2
Excitonic insulators, electron-hole liquids and metal-insulator
transitions due to band crossing
215
15.3
The
Mott
transition
220
15.4
Conclusions
225
References
225
16
Electron—hole liquid in semiconductors
N. N.
Sibeldin
227
16.1
Introduction
227
16.2
Microscopic properties and main thermodynamic parameters
of the EHL
228
16.3
Stability of the EHL
232
16.4
Phase diagrams
234
16.5
Macroscopic structure of the EHL
235
16.6
Kinetics of exciton condensation
237
16.7
Recombination kinetics
240
16.8
Motion of the EHDs under external forces
242
16.9
Giant EHDs
244
16.10Phonon wind
245
16.11
Spatial structure and dynamics of the EHD cloud
248
16.12
Conclusion
251
References
252
17
Collective state of interwell
excitons
in double quantum
well heterostructures
V. B. Timofeev
258
17.1
Introduction
258
17.2
Experimental
264
17.2.1
Phase diagram
264
17.2.2
Luminescence kinetics and spin relaxation
269
17.2.3
Condensation of interwell
excitons
in
a
nonuniform
elec¬
tric field
272
17.2.4
Spatially resolved collective state in
a Bose
gas of in¬
teracting interwell
excitons
275
xii Contents
17.3
Conclusion
281
References
282
18
Bose—
Einstein condensation of
excitons:
Promise and dis¬
appointment
R.
Zimmermann 285
18.1
A short history of exciton condensation
285
18.2
The ideal
Bose
gas in a trap
289
18.3
Excitons
in coupled quantum wells
291
18.4
Dynamical
Т
-matrix theory
295
References
298
19
Acoustically induced superlattices: Prom photons and elec¬
trons to
excitons, TO-phonons
and polaritons
A. L.
Ivanov
301
19.1
Introduction
301
19.2
The acoustically induced quasi-energy spectrum of bulk po¬
laritons
304
19.3
Macroscopic equations of resonant acousto-optics
308
19.4
Microcavity polaritons parametrically driven by a SAW
311
19.5
SAW-induced Bragg scattering of microcavity polaritons
313
19.6
Acoustically-driven TO-phonons for THz spectroscopy
316
19.7
Conclusions
320
References
320
20
Inelastic tunneling spectroscopy of single surface adsorbed
molecules
S. G. Tikhodeev and H. Ueba
323
20.1
Introduction
323
20.2
Keldysh-Green s functions and inelastic tunneling
328
20.2.1
Hamiltonian and formulation of the inelastic tunneling
problem
329
20.2.2
Keldysh-Green s functions
330
20.2.3
Triangular and ± representations
332
20.3
Calculation of
adsórbate
and vibrational densities and tun¬
neling current
335
20.3.1
Adsórbate
retarded Green s function
335
20.3.2
Vibrational retarded Green s function
336
20.3.3
Adsórbate
occupation function
337
20.3.4
Vibrational occupation function
337
20.3.5
Tunneling current
338
20.4
Discussion and some numerical results
339
References
345
Index
349
|
| adam_txt |
CONTENTS
Preface
1
1
Recollections
Elias Burstein 7
2
Once again on the "Physical Minimum"
V. L. Ginzburg
11
References
22
3
Hybrid organic-inorganic nanostructures and light-matter
interaction
V. M. Agranovich
24
3.1
Introduction: Hybrid organic-inorganic nanostructures
24
3.1.1
Excitons
in inorganic and organic materials
26
3.2
Strong coupling regime
27
3.2.1
Hybrid 2D Frenkel-Wannier-Mott
excitons
at the in¬
terface of organic and inorganic quantum wells
27
3.2.2
Hybridization of Prenkel and W-M
excitons
in a 2D
microcavity
30
3.2.3
Giant
Rabi
splitting in organic microcavities
31
3.3
Weak coupling regime in hybrid nanostructures
32
3.3.1
The
Förster
energy transfer
32
3.3.2 Förster
energy transfer in a planar geometry
33
3.3.3
Non-contact pumping of light emitters via nonradia-
tive energy transfer: A new concept for light-emitting
devices
35
3.3.4
First experiments
36
References
40
4
The acoustic-wave driven quantum processor
C. H. W. Barnes and M. Pepper
43
4.1
Introduction
43
4.2
Variable ^-factor materials
44
4.3
Two-qubit gate
46
4.4
Optical readout
46
4.5
Optical input
47
4.6
The optical quantum-state processor
47
4.7
Summary
48
References
49
Contents
On the problem of many-body localization
D. M. Basko, I. L. Aleiner and B. L. Altshuler
50
5.1
Introduction
50
5.2
Background and formulation of the problem
53
5.2.1
Non-interacting electrons in disorder potential
53
5.2.2
Role of inelastic processes and phonon-assisted hop¬
ping
54
5.2.3
Inelastic relaxation due to electron-electron interac¬
tion
54
5.3
Finite-temperature metal-insulator transition
55
5.3.1
Matrix elements of electron-electron interaction be¬
tween localized states: essential features of the model
55
5.3.2
Many-electron transitions and Fock space
56
5.3.3
Statistics of the transition rates
59
5.3.4
Self-consistent Born approximation
60
5.3.5
Metallic phase
62
5.3.6
Insulating phase
62
5.4
Metal-insulator transition and many-body mobility edge
64
5.5
Conclusions and perspectives
66
References
68
Raman scattering by
LO phonons
in semiconductors: The
role of the Franz—Keldysh effect
Elias Burstein 70
6.1
Introduction
70
6.2
Observation of forbidden
LO
phonon scattering at surface of
n-InSb
72
6.3
Role of the Franz-Keldysh effect in Raman scattering by
LO
phonons
75
6.4
Electric field-induced scattering by odd parity
LO
phonons
76
6.5
Microscopic theory of electric field-induced Raman scattering
by
LO
phonons
77
6.6
Raman scattering by
LO
phonons in crossed electric and mag¬
netic fields
79
6.7
Concluding remarks
81
References
82
Phenomena in cold exciton gases: From theory to experi¬
ments
L. V. Butov
83
7.1
Introduction
83
7.2
Stimulated kinetics of
excitons
86
7.3
Pattern formation in the exciton system
88
7.3.1
The inner exciton ring
91
7.3.2
The external exciton ring
93
Contents ix
7.3.3
The localized bright spots
94
7.3.4
The macroscopically ordered exciton state
94
References
98
8
Composite
fermions
and the fractional quantum Hall effect
in a two-dimensional electron system
I. V. Kukushkin, J. H.
Smet
and K.
von Klitzing 101
8.1
Fractional quantum Hall effect
101
8.2
Composite
fermions
in a nutshell
103
8.3
Experimental proof for the existence of composite
fermions
104
8.4
Cyclotron resonance of composite
fermions
107
8.5
Outlook
113
References
114
9
Microcavities with quantum dots: Weak and strong cou¬
pling regimes
V. D. Kulakovskii and A. Forchel
115
9.1
Introduction
115
9.2
Experiment
119
9.3 MC
pillar emission
121
9.4
Weak coupling regime:
Purceii
effect
123
9.5 MC
emission: Theory
127
9.6
Fit of the
MC
emission spectra: Weak and strong coupling
regimes
130
9.7
Conclusions
132
References
132
10
Dynamics of cold
excitons
and electron—hole ensembles in
direct-gap semiconductors studied by mid-infrared pump
and probe spectroscopy
Makoto Kuwata-Gonokami
135
10.1
Introduction
135
10.2
Electron-hole liquid formation via exciton resonant excitation
in CuCl
137
10.2.1
Search for EHL phase in direct gap semiconductors
137
10.2.2
Time-resolved
photoluminescence
measurements under
resonant excitation of
excitons
above
Mott
transition
density
139
10.2.3
Mid-infrared transient reflection spectroscopy
139
10.2.4
Discussion: Electron-hole antidroplet formation
144
10.3
Excitonic Lyman spectroscopy in Cu^O
145
10.3.1
Search for exciton
ВЕС
145
10.3.2
Excitons
in Cu2O
146
10.3.3
Excitonic Lyman transition
147
10.3.4
Time-resolved excitonic Lyman spectroscopy
149
x
Contents
10.3.5
Exciton cold collision and ortho- to paraexciton con¬
version
157
10.4
Conclusion
159
References
160
11
Exciton coherence
P. B. Littlewood
163
11.1
Introduction
163
11.2
Excitonic instability of a semiconductor: Elementary concepts
166
11.2.1
Keldysh mean field theory
167
11.2.2
Pseudospins and two-level system analogies
169
11.3
Some other physical systems
170
11.3.1
ВЕС
of quantum magnets
170
11.3.2
Quantum Hall bilayers
171
11.3.3
Polaritons
172
11.4
Further symmetry breaking, superfluidity, and decoherence
174
11.4.1
Lattice effects and relation to charge density waves
174
11.4.2
Dynamics and decoherence
176
11.5
Conclusion
177
References
178
12
Inelastic light scattering by low-lying excitations of quan¬
tum Hall fluids
Vittorio Pellegrini
and
Aron
Pinczuk
182
12.1
Introduction
182
12.2
Inelastic light scattering by low-dimensional electron systems
183
12.3
Light scattering in the quantum Hall regimes
186
12.4
Charge and spin excitations at
ν
= 1/3 189
12.5
Spin-flip excitations at
ν
= 2/5 189
12.6
Spin excitations in double layers at
ν
— 1 190
12.7
Overview of recent results
191
12.8
Concluding remarks
194
References
195
13
Remarks on surface-atom forces in London and Lifshitz
limits
L. P. Pitaevskii
197
13.1
Introduction
197
13.2
Atom-surface energy
198
13.3
Longitudinal Green's function
199
13.4
Conclusion
201
References
201
14
Modern trends in semiconductor spintronics
Emmanuel I. Rashba
203
14.1
Introduction
203
Contents xi
14.2
Electrical spin operation
204
14.3
Spin interference phenomena
205
14.4
Spin injection: Optical and electrical
206
14.5
Transport in media with spin-orbit coupling
208
14.6
Macro- and mesoscopic spin Hall effect
209
14.7
Related systems
210
References
211
15
Excitonic insulators, electron—hole liquids and metal—insulator
transitions
T. Maurice Rice
214
15.1
Introduction
214
15.2
Excitonic insulators, electron-hole liquids and metal-insulator
transitions due to band crossing
215
15.3
The
Mott
transition
220
15.4
Conclusions
225
References
225
16
Electron—hole liquid in semiconductors
N. N.
Sibeldin
227
16.1
Introduction
227
16.2
Microscopic properties and main thermodynamic parameters
of the EHL
228
16.3
Stability of the EHL
232
16.4
Phase diagrams
234
16.5
Macroscopic structure of the EHL
235
16.6
Kinetics of exciton condensation
237
16.7
Recombination kinetics
240
16.8
Motion of the EHDs under external forces
242
16.9
Giant EHDs
244
16.10Phonon wind
245
16.11
Spatial structure and dynamics of the EHD cloud
248
16.12
Conclusion
251
References
252
17
Collective state of interwell
excitons
in double quantum
well heterostructures
V. B. Timofeev
258
17.1
Introduction
258
17.2
Experimental
264
17.2.1
Phase diagram
264
17.2.2
Luminescence kinetics and spin relaxation
269
17.2.3
Condensation of interwell
excitons
in
a
nonuniform
elec¬
tric field
272
17.2.4
Spatially resolved collective state in
a Bose
gas of in¬
teracting interwell
excitons
275
xii Contents
17.3
Conclusion
281
References
282
18
Bose—
Einstein condensation of
excitons:
Promise and dis¬
appointment
R.
Zimmermann 285
18.1
A short history of exciton condensation
285
18.2
The ideal
Bose
gas in a trap
289
18.3
Excitons
in coupled quantum wells
291
18.4
Dynamical
Т
-matrix theory
295
References
298
19
Acoustically induced superlattices: Prom photons and elec¬
trons to
excitons, TO-phonons
and polaritons
A. L.
Ivanov
301
19.1
Introduction
301
19.2
The acoustically induced quasi-energy spectrum of bulk po¬
laritons
304
19.3
Macroscopic equations of resonant acousto-optics
308
19.4
Microcavity polaritons parametrically driven by a SAW
311
19.5
SAW-induced Bragg scattering of microcavity polaritons
313
19.6
Acoustically-driven TO-phonons for THz spectroscopy
316
19.7
Conclusions
320
References
320
20
Inelastic tunneling spectroscopy of single surface adsorbed
molecules
S. G. Tikhodeev and H. Ueba
323
20.1
Introduction
323
20.2
Keldysh-Green's functions and inelastic tunneling
328
20.2.1
Hamiltonian and formulation of the inelastic tunneling
problem
329
20.2.2
Keldysh-Green's functions
330
20.2.3
Triangular and ± representations
332
20.3
Calculation of
adsórbate
and vibrational densities and tun¬
neling current
335
20.3.1
Adsórbate
retarded Green's function
335
20.3.2
Vibrational retarded Green's function
336
20.3.3
Adsórbate
occupation function
337
20.3.4
Vibrational occupation function
337
20.3.5
Tunneling current
338
20.4
Discussion and some numerical results
339
References
345
Index
349 |
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| spelling | Problems of condensed matter physics quantum coherence phenomena in electron-hole and coupled matter-light systems ed. by Alexei L. Ivanov ... 1. publ. Oxford [u.a.] Oxford Univ. Press 2008 XII, 358 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier International series of monographs on physics 139 Condensed matter Kondensierte Materie (DE-588)4132810-3 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Kondensierte Materie (DE-588)4132810-3 s DE-604 Ivanov, Alexei L. Sonstige oth International series of monographs on physics 139 (DE-604)BV000106406 139 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015992699&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
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| subject_GND | (DE-588)4132810-3 (DE-588)4143413-4 |
| title | Problems of condensed matter physics quantum coherence phenomena in electron-hole and coupled matter-light systems |
| title_auth | Problems of condensed matter physics quantum coherence phenomena in electron-hole and coupled matter-light systems |
| title_exact_search | Problems of condensed matter physics quantum coherence phenomena in electron-hole and coupled matter-light systems |
| title_exact_search_txtP | Problems of condensed matter physics quantum coherence phenomena in electron-hole and coupled matter-light systems |
| title_full | Problems of condensed matter physics quantum coherence phenomena in electron-hole and coupled matter-light systems ed. by Alexei L. Ivanov ... |
| title_fullStr | Problems of condensed matter physics quantum coherence phenomena in electron-hole and coupled matter-light systems ed. by Alexei L. Ivanov ... |
| title_full_unstemmed | Problems of condensed matter physics quantum coherence phenomena in electron-hole and coupled matter-light systems ed. by Alexei L. Ivanov ... |
| title_short | Problems of condensed matter physics |
| title_sort | problems of condensed matter physics quantum coherence phenomena in electron hole and coupled matter light systems |
| title_sub | quantum coherence phenomena in electron-hole and coupled matter-light systems |
| topic | Condensed matter Kondensierte Materie (DE-588)4132810-3 gnd |
| topic_facet | Condensed matter Kondensierte Materie Aufsatzsammlung |
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