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The dimensions of modern semiconductor devices are reduced to the
point where classical semiconductor theory, including the concepts
of continuous particle concentration and continuous current,
becomes questionable. Further questions relate to two-dimensional
transport in the most important field-effect devices and
one-dimensional transport in nanowires and carbon nanotubes.
For the international second edition, the author builds upon and expands on hallmark features of the book established in the first edition, adding sections on new technology and increasing the number of end-of-chapter problems by 30%. Updated material relating to the environmental applications of technology was added , as well as a new chapter on nanoscale devices. Chapters on MOS capacitor and generation and recombination were also revised and updated. The book is divided into 4 parts: Part I on Semiconductor Physics; Part II on the principles of operation and modeling of the fundamental junctions and transistors; Part III on the diode, MOSFET and BJT topics needed for circuit design, and Part IV on photonic devices, microwave FETs, negative-resistance diodes, and power devices. Within each part, material is presented hierarchically, with core topics first, followed by advanced topics.
The dimensions of modern semiconductor devices are reduced to the point where classical semiconductor theory, including the concepts of continuous particle concentration and continuous current, becomes questionable. Further questions relate to two-dimensional transport in the most important field-effect devices and one-dimensional transport in nanowires and carbon nanotubes. Designed for upper-level undergraduate and graduate courses, Principles of Semiconductor Devices, Second Edition, presents the semiconductor-physics and device principles in a way that upgrades classical semiconductor theory and enables proper interpretations of numerous quantum effects in modern devices. The semiconductor theory is directly linked to practical applications, including the links to the SPICE models and parameters that are commonly used during circuit design. The text is divided into three parts: Part I explains semiconductor physics; Part II presents the principles of operation and modeling of the fundamental junctions and transistors; and Part III provides supplementary topics, including a dedicated chapter on the physics of nanoscale devices, description of the SPICE models and equivalent circuits that are needed for circuit design, introductions to the most important specific devices (photonic devices, JFETs and MESFETs, negative-resistance diodes, and power devices), and an overview of integrated-circuit technologies. The chapters and the sections in each chapter are organized so as to enable instructors to select more rigorous and design-related topics as they see fit. New to this Edition * A new chapter on the physics of nanoscale devices * A revised chapter on the energy-band model and fully reworked and updated material on crystals to include graphene and carbon nanotubes * A revised P-N junction chapter to emphasize the current mechanisms that are relevant to modern devices * JFETs and MESFETs in a stand-alone chapter * Fifty-seven new problems and eleven new examples
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