Kamakhya Prasad Ghatak, Sitangshu Bhattacharya, Debashis De
Einstein Relation in Compound Semiconductors and Their Nanostructures (eBook, PDF)
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Kamakhya Prasad Ghatak, Sitangshu Bhattacharya, Debashis De
Einstein Relation in Compound Semiconductors and Their Nanostructures (eBook, PDF)
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Produktdetails
- Verlag: Springer Berlin
- Erscheinungstermin: 16. November 2008
- Englisch
- ISBN-13: 9783540795575
- Artikelnr.: 37371848
Professor K. P. Ghatak is the First Recipient of the Degree of Doctor of Engineering of Jadavpur University in 1991 since the University inception in 1955 and in the same year he received the prestigious Indian National Science Academy award. He joined as Lecturer in the Institute of Radio Physics and Electronics of the University of Calcutta in 1983, Reader in the Department of Electronics and Telecommunication of Jadavpur University in 1987 and Professor in the Department of Electronic Science of the University of Calcutta in 1994 respectively. His present research interest is nanostructured science and technology. He is the principal co-author of more than 200 research papers on Semiconductor and Nanoscience in eminent peer-reviewed International Journals and more than 50 research papers in the Proceedings of the International Conferences held in USA and many of his papers are being cited many times. Professor Ghatak is the invited Speaker of SPIE, MRS, etc. and is the referee
of different eminent Journals.
of different eminent Journals.
Basics of the Einstein Relation.- The Einstein Relation in Bulk Specimens of Compound Semiconductors.- The Einstein Relation in Compound Semiconductors Under Magnetic Quantization.- The Einstein Relation in Compound Semiconductors Under Crossed Fields Configuration.- The Einstein Relation in Compound Semiconductors Under Size Quantization.- The Einstein Relation in Quantum Wires of Compound Semiconductors.- The Einstein Relation in Inversion Layers of Compound Semiconductors.- The Einstein Relation in Nipi Structures of Compound Semiconductors.- The Einstein Relation in Superlattices of Compound Semiconductors in the Presence of External Fields.- The Einstein Relation in Compound Semiconductors in the Presence of Light Waves.- The Einstein Relation in Compound Semiconductors Under Magnetic Quantization.- Conclusion and Future Research.
Basics of the Einstein Relation.- The Einstein Relation in Bulk Specimens of Compound Semiconductors.- The Einstein Relation in Compound Semiconductors Under Magnetic Quantization.- The Einstein Relation in Compound Semiconductors Under Crossed Fields Configuration.- The Einstein Relation in Compound Semiconductors Under Size Quantization.- The Einstein Relation in Quantum Wires of Compound Semiconductors.- The Einstein Relation in Inversion Layers of Compound Semiconductors.- The Einstein Relation in Nipi Structures of Compound Semiconductors.- The Einstein Relation in Superlattices of Compound Semiconductors in the Presence of External Fields.- The Einstein Relation in Compound Semiconductors in the Presence of Light Waves.- The Einstein Relation in Compound Semiconductors Under Magnetic Quantization.- Conclusion and Future Research.
Basics of the Einstein Relation.- The Einstein Relation in Bulk Specimens of Compound Semiconductors.- The Einstein Relation in Compound Semiconductors Under Magnetic Quantization.- The Einstein Relation in Compound Semiconductors Under Crossed Fields Configuration.- The Einstein Relation in Compound Semiconductors Under Size Quantization.- The Einstein Relation in Quantum Wires of Compound Semiconductors.- The Einstein Relation in Inversion Layers of Compound Semiconductors.- The Einstein Relation in Nipi Structures of Compound Semiconductors.- The Einstein Relation in Superlattices of Compound Semiconductors in the Presence of External Fields.- The Einstein Relation in Compound Semiconductors in the Presence of Light Waves.- The Einstein Relation in Compound Semiconductors Under Magnetic Quantization.- Conclusion and Future Research.
Basics of the Einstein Relation.- The Einstein Relation in Bulk Specimens of Compound Semiconductors.- The Einstein Relation in Compound Semiconductors Under Magnetic Quantization.- The Einstein Relation in Compound Semiconductors Under Crossed Fields Configuration.- The Einstein Relation in Compound Semiconductors Under Size Quantization.- The Einstein Relation in Quantum Wires of Compound Semiconductors.- The Einstein Relation in Inversion Layers of Compound Semiconductors.- The Einstein Relation in Nipi Structures of Compound Semiconductors.- The Einstein Relation in Superlattices of Compound Semiconductors in the Presence of External Fields.- The Einstein Relation in Compound Semiconductors in the Presence of Light Waves.- The Einstein Relation in Compound Semiconductors Under Magnetic Quantization.- Conclusion and Future Research.