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Semiconductor Physics and Device Semiconductor Devices: Basic Principles by Jasprit Singh, X From physical process to practical applications — Singh makes the complexities of modern semiconductor devices clear! The semiconductor devices that are driving today’ s information, technologies may seem remarkably complex, but they don’ t have to be impossible to understand. Filled with figures, flowcharts, and solved examples, Jasprit Singh’ s Semiconductor Devices provides an accessible, well-balanced introduction to semiconductor physics and its application to modern devices. Beginning with the physical process behind semiconductor devices, Singh clearly explains difficult topics, including bandstructure, effective masses, holes, doping, carrier transport, and lifetimes. Following these physical fundamentals, you’ ll explore the operation of important semiconductor devices, such as diodes, transistors, light emitters, and detectors, along with issues relating to the optimization of device performance. FeaturesOver 150 solved examples, integrated throughout the text, clarify difficult concepts.End-of-chapter summary tables and hundreds of figures reinforce the intricacies of modern semiconductor devices.Discussion of device optimization issues explains why you have to trade one performance against another in devices.Shows the relationship of physical parameters to SPICE parameters and its impact on circuit issues.Technology Roadmaps outline what’ s currently happening in the field and present a look at where device technology is headed in the future.A Bit of History sections, included in each chapter, explore the history of the concepts developed and provide a snapshot of the personalities involved and the challenges of the time.
Physics of Optoelectronic Devices by S. L. Chuang, Physics of Optoelectronic Devices offers readers a broad ranging, systematic review of important topics in semiconductor electronics, physics, and electromagnetics, information essential to understanding the design and operation of optoelectronic devices. The book begins with a detailed look at fundamentals such as Maxwell's equations and semiconductor physics, then explores a vast array of theoretical issues concerning the propagation, generation, modulation, and detection of light. It clearly demonstrates how these issues apply to the operation of various bulk and quantum-well semiconductor devices. Topics and devices discussed include: Heterojunctions and band structure calculations near the band edges for both bulk and quantum-well semiconductors Optical dielectric waveguide theory applied to semiconductor lasers, directional couplers, and electrooptic modulators General theory for optical gain and absorption via interband and intersubband transitions in bulk and quantum-well semiconductors Double heterojunction semiconductor lasers, strained quantum-well lasers, distributed-feedback lasers, and vertical-cavity surface-emitting lasers High-speed modulation of semiconductor lasers using linear and nonlinear gains and the linewidth enhancement theory Franz-Keldysh effects and excitonic effects in bulk and quantum-well semiconductors, electroabsorption modulators Interband and intersubband photodetectors Comprehensive, timely, and practical, Physics of Optoelectronic Devices is both a superior textbook for advanced courses in electrical engineering, applied physics, and materials science and an invaluable reference for professionals.
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