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GROUP III
: Condensed Matter
VOLUME 34 
Semiconductor Quantum Structures SUBVOLUME C1
Optical Properties. Part 1


Introductory material 
0 
Introduction (C. KLINGSHIRN) 1

1 
Theoretical concepts (H. HAUG) 6

1.1 
Electronic states and phonons in mesoscopic microstructures 6

1.2 
Theory of stationary spectroscopy 21

1.3 
Theory of transient spectroscopy 38

2 
Experimental methods (C. KLINGSHIRN) 55

2.1 
Linear optical spectroscopy 56

2.2 
Nonlinear optical spectroscopy 61

2.3 
Time-resolved spectroscopy 73

2.4 
Spatially resolved spectroscopy 82

2.5 
Spectroscopy under the influence of external fields 85

3 
Group IV Semiconductors (See Vol. 34C2) 
4 
III-V Semiconductors (C. KLINGSHIRN) 96

4.1 
General properties 96

4.2 
Quantum-well structures 100

4.3 
Superlattices and coupled quantum wells 209

4.4 
Quantum-wire structures 264

4.5 
Quantum-dot structures 286

5 
II-VI Semiconductors (See Vol. 34C2) 
6 
I-VII Semiconductors (U. WOGGON) 314

6.1 
General properties 314

6.2 
Quantum-well structures 315

6.3 
Superlattices 315

6.4 
Quantum-wire structures 315

6.5 
Quantum dots 316

7 
IV-VI Semiconductors (M. TACKE, A. ISHIDA) 332

7.1 
General properties 332

7.2 
Single and multiple quantum wells 341

7.3 
Superlattices 349

7.4 
Quantum wires and dots 352



