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Describes measurements of band gap in optoelectronic nanodevices under intense electric field and strong external photo excitation
Presents 100 open research problems
Covers a wide range of different technologically important electronic compounds in detail
This book presents the Einstein Relation(ER) in two-dimensional (2-D) Heavily Doped(HD) Quantized Structures. The materials considered are quantized structures of HD non-linear optical, III-V, II-VI, Ge, Te, Platinum Antimonide, stressed materials, GaP, Gallium Antimonide, II-V, Bismuth Telluride together with various types of HD superlattices and their Quantized counterparts respectively. The ER in HD opto-electronic materials and their nanostructures is studied in the presence of strong light waves and intense electric fields on the basis of newly formulated electron dispersion laws that control the studies of such quantum effect devices. The suggestion for the experimental determination of HD 2D and 3D ERs and the importance of measurement of band gap in HD optoelectronic materials under intense built-in electric field in nanodevices and strong external photo excitation (for measuring photon induced physical properties) are also discussed in this context. The influence of crossed electric and quantizing magnetic fields on the ER of the different 2D HD quantized structures (quantum wells, inversion and accumulation layers, quantum well HD superlattices and nipi structures) under different physical conditions is discussed in detail. This monograph contains 100 open research problems which form the integral part of the text and are useful for both Ph.D aspirants and researchers in the fields of condensed matter physics, solid-state sciences, materials science, nano-science and technology and allied fields.
Content Level »Research
Keywords »2D-quantized Structures - Einstein Relation in Semiconductors Under Strong Electric Field - Einstein Relation in Super-lattices Under Magnetic Quantization - III-V, Ternary and Quaternary Semiconductors - Low-dimensional Semiconductors - Quantized Optoelectronic Semiconductors - Quantum Wells of Doped Non-parabolic Semiconductors - Semiconductors Under External Photo-excitation