Dielectric Phenomena in SolidsAcademic Press, 2004年3月11日 - 581 頁 In general, a dielectric is considered as a non-conducting or insulating material (such as a ceramic or polymer used to manufacture a microelectronic device). This book describes the laws governing all dielectric phenomena. · A unified approach is used in describing each of the dielectric phenomena, with the aim of answering "what?", "how?" and "why" for the occurrence of each phenomenon; · Coverage unavailable in other books on ferroelectrics, piezoelectrics, pyroelectrics, electro-optic processes, and electrets; · Theoretical analyses are general and broadly applicable; · Mathematics is simplified and emphasis is placed on the physical insight of the mechanisms responsible for the phenomena; · Truly comprehensive coverage not available in the current literature. |
內容
1 Introduction | 1 |
2 Electric Polarization and Relaxation | 41 |
3 Optical and ElectroOptic Processes | 115 |
4 Ferroelectrics Piezoelectrics and Pyroelectrics | 213 |
5 Electrets | 283 |
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absorption Appl applied field applied voltage atoms band gap barrier height BaTiO3 beam breakdown carrier injection cathode cavity ceramics charge carriers Chem coefficient concentration conduction band crystal decrease density depends dielectric constant dielectric material dipolar dipole direction discharge distribution domain effect elec electret electric field electrical conduction electrical treeing electrons and holes emission energy band energy level Equation excited exciton ferroelectric field F film frequency function IEEE impurities increasing insulator interaction ionic ionization ions lattice light magnetic field mechanical mobility molecules n-type semiconductor negative ohmic ohmic contact optical particles permittivity phase photoconduction photocurrent photon Phys piezoelectric poling polymers potential barrier produce pyroelectric quantum recombination centers refractive index region relaxation semiconductor shown in Figure solid space charge specimen spontaneous polarization stress structure surface temperature thermal thickness tion transition tric trons tunneling valence band velocity wave