000 01948nam a22001697a 4500
005 20240215112524.0
008 240215b |||||||| |||| 00| 0 eng d
020 _a9780521850278
082 _a620.11
_bSIN
100 _aJasprit Singh
245 _aSmart Electronic Materials
_b Fundamentals and Applications
_cJasprit Singh
260 _aUK
_bCambridge
_c2005
300 _a408P
505 _t1. Structural properties 2. Quantum mechanics and electronic levels 3. Electronic levels in solids 4. Charge transport 5. Light absorption and emission 6. Dielectric reponse: polarization effects 7. Optical modulation and switching 8. Magnetic effects in solids A. Important properties of semiconductors B. P-N diode: a summary C. Fermi golden rule D. Lattice vibrations and phonons E. Defect scattering and mobility Index.
520 _aSmart materials respond rapidly to external stimuli to alter their physical properties. They are used in devices that are driving advances in modern information technology and have applications in electronics, optoelectronics, sensors, memories and other areas. This book fully explains the physical properties of these materials, including semiconductors, dielectrics, ferroelectrics, ferromagnetics and organic polymers. Fundamental concepts are consistently connected to their real-world applications. It covers structural issues, electronic properties, transport properties, polarization-related properties and magnetic properties of a wide range of smart materials. The book contains carefully chosen worked examples to convey important concepts and has many end-of-chapter problems. It is written for first year graduate students in electrical engineering, materials science or applied physics programs. It is also an invaluable book for engineers working in industry or research laboratories. A solution manual and a set of useful viewgraphs are also available for instructors.
942 _2ddc
_cBK
999 _c2056
_d2056