Magneto Thermoelectric Power in Heavily Doped Quantized Structures

Nonfiction, Science & Nature, Technology, Electronics, Semiconductors, Industrial Health & Safety
Cover of the book Magneto Thermoelectric Power in Heavily Doped Quantized Structures by Kamakhya Prasad Ghatak, World Scientific Publishing Company
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Author: Kamakhya Prasad Ghatak ISBN: 9789814713214
Publisher: World Scientific Publishing Company Publication: January 28, 2016
Imprint: WSPC Language: English
Author: Kamakhya Prasad Ghatak
ISBN: 9789814713214
Publisher: World Scientific Publishing Company
Publication: January 28, 2016
Imprint: WSPC
Language: English

This pioneering monograph solely deals with the Magneto Thermoelectric Power (MTP) in Heavily Doped (HD) Quantized Structures. The materials considered range from HD quantum confined nonlinear optical materials to HgTe/CdTe HD superlattices with graded interfaces and HD effective mass superlattices under magnetic quantization. An important concept of the measurement of the band gap in HD optoelectronic materials in the presence of external photo-excitation has been discussed in this perspective. The influences of magnetic quantization, crossed electric and quantizing fields, the intense electric field on the TPM in HD semiconductors and superlattices are also discussed. This book contains 200 open research problems which form the integral part of the text and are useful for both PhD aspirants and researchers in the various fields for which this particular series is dedicated.

Contents:

  • Part I: Magneto Thermoelectric Power (MTP) in HD Quantum Confined Non-Parabolic Semiconductors:

    • The MTP in Quantum Wells (QWs) of Heavily Doped (HD) Non-Parabolic Semiconductors
    • The MTP in Nano Wires (NWs) of Heavily Doped (HD) Non-Parabolic Semiconductors
    • The MTP from Quantum Box (QB) of Heavily Doped (HD) Non-Parabolic Semiconductors
    • The MTP in Heavily Doped (HD) Non-Parabolic Semiconductors Under Magnetic Quantization
    • The MTP in Heavily Doped (HD) Non-Parabolic Semiconductors Under Magneto-Size Quantization
  • Part II: The MTP in Heavily Doped (HD) Quantum Confined Superlattices:

    • The MTP in Quantum Wire HDSLs
    • The MTP in Quantum Dot HDSLs
    • The MTP in HDSLs Under Magnetic Quantization
  • Part III: Few Related Applications, Conclusions and Future Research and Appendices:

    • Few Related Applications
    • Conclusion and Scope for Future Research
  • Appendices:

    • The MTP Under Photo Excitation in HD Kane-Type Semiconductors
    • The MTP in Doping Superlattices of HD Non-Parabolic Semiconductors
    • The MTP in QWHDSLs Under Magnetic Quantization
    • The MTP in Accumulation and Inversion Layers of Non-Parabolic Semiconductors
    • The MTP in HDs Under Cross-Fields Configuration
    • The MTP in Heavily Doped Ultra-Thin Films (HDUFs) Under Cross-Fields Configuration
    • The MTP in Doping Superlattices of HD Non-Parabolic Semiconductors Under Magnetic Quantization
    • The MTP in Accumulation and Inversion Layers of Non-Parabolic Semiconductors Under Magnetic Quantization
    • The MTP in QWHDSLs
    • The MTP under Intense Electric Field in HD Kane Type Semiconductors

Readership: Graduate students, researchers and academics interested in advanced solid state physics and nanoelectronics.

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This pioneering monograph solely deals with the Magneto Thermoelectric Power (MTP) in Heavily Doped (HD) Quantized Structures. The materials considered range from HD quantum confined nonlinear optical materials to HgTe/CdTe HD superlattices with graded interfaces and HD effective mass superlattices under magnetic quantization. An important concept of the measurement of the band gap in HD optoelectronic materials in the presence of external photo-excitation has been discussed in this perspective. The influences of magnetic quantization, crossed electric and quantizing fields, the intense electric field on the TPM in HD semiconductors and superlattices are also discussed. This book contains 200 open research problems which form the integral part of the text and are useful for both PhD aspirants and researchers in the various fields for which this particular series is dedicated.

Contents:

Readership: Graduate students, researchers and academics interested in advanced solid state physics and nanoelectronics.

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