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Quantum Physics Of Semiconductor Materials And Devices D Jena

Name: Quantum Physics Of Semiconductor Materials And Devices D Jena
SKU: BELL-49607030
Price: 31.00 USD
Availability: InStock
Rating: 4.4 (22 reviews)

SKU: BELL-49607030

$ 31.00 ~~$ 45.00~~ (-31%)

4.4

22 reviews

Quantum Physics Of Semiconductor Materials And Devices D Jena instant download after payment.

Publisher: Oxford University Press

File Extension: PDF

File size: 27.67 MB

Pages: 897

Author: D. Jena

ISBN: 9780198856856, 0198856857

Language: English

Year: 2022

Product desciption

Quantum Physics Of Semiconductor Materials And Devices D Jena by D. Jena 9780198856856, 0198856857 instant download after payment.

Semiconductor physics is a laboratory to learn and discover the concepts of quantum mechanics and thermodynamics, condensed matter physics, and materials science, and the payoffs are almost immediate in the form of useful semiconductor devices. Debdeep Jena has had the opportunity to work on both sides of the fence - on the fundamental materials science and quantum physics of semiconductors, and in their applications in semiconductor electronic and photonic devices. In Quantum Physics of Semiconductors and Nanostructures, Jena uses this experience to make each topic as tangible and accessible as possible to students at all levels.
Consider the simplest physical processes that occur in semiconductors: electron or hole transport in bands and over barriers, collision of electrons with the atoms in the crystal, or when electrons and holes annihilate each other to produce a photon. The correct explanation of these processes require a quantum mechanical treatment. Any shortcuts lead to misconceptions that can take years to dispel, and sometimes become roadblocks towards a deeper understanding and appreciation of the richness of the subject. A typical introductory course on semiconductor physics would then require prerequisites of quantum mechanics, statistical physics and thermodynamics, materials science, and electromagnetism. Rarely would a student have all this background when (s)he takes a course of this nature in most universities. Jena's work fills in these gaps and gives students the background and deeper understanding of the quantum physics of semiconductors and nanostructures.