Dispersion Relations in Heavily Doped Nanostructures 1st Edition by Kamakhya Prasad Ghatak ISBN 331936703X 978-3319367033

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ISBN 10:  331936703X
ISBN 13:  978-3319367033
Author: Kamakhya Prasad Ghatak

This book presents the dispersion relation in heavily doped nano-structures. The materials considered are III-V, II-VI, IV-VI, GaP, Ge, Platinum Antimonide, stressed, GaSb, Te, II-V, HgTe/CdTe superlattices and Bismuth Telluride semiconductors. The dispersion relation is discussed under magnetic quantization and on the basis of carrier energy spectra. The influences of magnetic field, magneto inversion, and magneto nipi structures on nano-structures is analyzed. The band structure of optoelectronic materials changes with photo-excitation in a fundamental way according to newly formulated electron dispersion laws. They control the quantum effect in optoelectronic devices in the presence of light. The measurement of band gaps in optoelectronic materials in the presence of external photo-excitation is displayed. The influences of magnetic quantization, crossed electric and quantizing fields, intense electric fields on the on the dispersion relation in heavily doped semiconductors and super-lattices are also discussed. This book contains 200 open research problems which form the integral part of the text and are useful for graduate students and researchers. The book is written for post graduate students, researchers and engineers.

Dispersion Relations in Heavily-Doped Nanostructures 1st Table of contents:

1. Dispersion Relations in HD Quantum Wells, Nano Wires and Dots in the Presence of Magnetic Field

Part Frontmatter

1. The DRs in Low Dimensional HD Systems in the Presence of Magnetic Field

2. Dispersion Relations in HD Quantum Confined Non-parabolic Materials

Part Frontmatter

2. The DRs in Ultrathin Films (UFs) of Heavily Doped (HD) Non-parabolic Materials

3. The DRs in Quantum Wires (QWs) of Heavily Doped (HD) Non-parabolic Materials

4. The DRs in Quantum Dots (QDs) of Heavily Doped (HD) Non-parabolic Materials

5. The DR in Doping Superlattices of HD Non-parabolic Semiconductors

6. The DR in Accumulation and Inversion Layers of Non-parabolic Semiconductors

7. The DR in Heavily Doped (HD) Non-parabolic Semiconductors Under Magnetic Quantization

8. The DR in HDs Under Cross-Fields Configuration

9. The DR in Heavily Doped (HD) Non-parabolic Semiconductors Under Magneto-Size Quantization

10. The DR in Heavily Doped Ultra-thin Films (HDUFs) Under Cross-Fields Configuration

11. The DR in Doping Superlattices of HD Non-parabolic Semiconductors Under Magnetic Quantization

12. The DR in Accumulation and Inversion Layers of Non-parabolic Semiconductors Under Magnetic Quantization

3. The DR in Heavily Doped (HD) Quantum Confined Superlattices

Part Frontmatter

13. The DR in QWHDSLs

14. The DR in Quantum Wire HDSLs

15. The DR in Quantum Dot HDSLs

16. The DR in HDSLs Under Magnetic Quantization

17. The DR in QWHDSLs Under Magnetic Quantization

4. Dispersion Relations in HD Kane Type Semiconductors in the Presence of Light Waves

Part Frontmatter

18. The DR Under Photo Excitation in HD Kane Type Semiconductors

5. Dispersion Relations in HD Kane Type Semiconductors in the Presence of Intense Electric Field

Part Frontmatter

19. The DR Under Intense Electric Field in HD Kane Type Semiconductors

20. Few Related Applications

21. Conclusion and Scope for Future Research

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Tags: Kamakhya Prasad Ghatak, Dispersion Relations, Heavily Doped