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Books on the topic 'Electron acoustic waves'

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Published: 6 September 2023

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1

A, Kaner Ė. Izbrannye trudy. Kiev: Nauk. dumka, 1989.

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2

P, Silin V., ed. Teorii͡a︡ ėlektronnoĭ zhidkosti normalʹnykh metallov. Moskva: "Nauka", 1985.

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3

Janeliauskas, Artūras. Akustoelektroniniai įtaisai: Projektavimas ir taikymas : monografija. Kaunas: Technologija, 2004.

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4

Winter School on Wave and Quantum Acoustics (34th 2005 Ustroń, Poland). 34th Winter School on Wave and Quantum Acoustics: Ustroń, Poland, 28 February-4 March, 2005. Les Ulis, France: EDP Sciences, 2005.

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5

Gevorgian, Spartak Sh. Tuneable Film Bulk Acoustic Wave Resonators. London: Springer London, 2013.

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6

Ken-ya, Hashimoto, ed. RF Bulk acoustic wave filters for communications. Norwood, Mass: Artech House, 2009.

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7

Acoustic wave and electromechanical resonators: Concept to key applications. Norwood, MA: Artech House, 2010.

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8

Hashimoto, Ken-ya. Surface Acoustic Wave Devices in Telecommunications: Modelling and Simulation. Berlin, Heidelberg: Springer Berlin Heidelberg, 2000.

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9

R, Bálek, and Merhaut Josef, eds. Povrchové akustické vlny. Praha: Academia, 1986.

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10

Winter School on Wave and Quantum Acoustics (35th 2006 Ustroń, Poland). 35th Winter School on Wave Acoustics and Quantum Acoustics, W&QA, Ustroń, Poland, 27 February-3 March, 2006. Les Ulis, France: EDP Sciences, 2006.

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11

Campanella, Humberto. Acoustic wave and electromechanical resonators: Concept to key applications. Norwood, MA: Artech House, 2010.

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12

Surface acoustic wave devices for mobile and wireless communications. San Diego: Academic Press, 1998.

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13

Instytut prykladnykh problem mekhaniky i matematyky im. I͡A︡.S. Pidstryhacha., ed. Direct and inverse problems of electromagnetic and acoustic wave theory: DIPED-99 : proceedings of IVth International Seminar/Workshop : Lviv, September 20-23, 1999. Lviv, Ukraine: Institute for Applied Problems of Mechanics and Mathematics of NASU, 1999.

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14

L, Lizzi Frederic, Society of Photo-optical Instrumentation Engineers., and Federal Aviation Administration Technical Center (U.S.). Aviation Security Research & Development Service., eds. New developments in ultrasonic transducers and transducer systems: 21-22 July 1992, San Diego, California. Bellingham, Wash: SPIE, 1992.

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15

International, Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (3rd 1998 Tʻbilisi Georgia). DIPED-98: Proceedings of III International Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory : Tbilisi, November 2-5, 1998. Lviv, Ukraine: Institute for Applied Problems of Mechanics and Mathematics of NASU, 1998.

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16

International Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (3rd 1998 Tʻbilisi, Georgia). DIPED-98: Proceedings of III International Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory : Tbilisi, November 2-5, 1998. Lviv, Ukraine: Institute for Applied Problems of Mechanics and Mathematics of NASU, 1998.

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17

Kat͡senelenbaum, B. Z. Theory of nonuniform waveguides: The cross-section method. London: Institution of Electrical Engineers, 1998.

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18

C, Ferguson Dale, and United States. National Aeronautics and Space Administration., eds. Low frequency waves in the plasma environment around the shuttle. [Washington, DC: National Aeronautics and Space Administration, 1996.

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19

D, McCollum M., Hamonic Bernard 1948-, and Wilson Oscar Bryan, eds. Transducers for sonics and ultrasonics: Proceedings of the third international workshop, Orlando, Florida, U.S.A., May 6-8, 1992. Lancaster, Pa: Technomic Pub. Co., 1993.

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20

A, Gerber Eduard, and Ballato Arthur, eds. Precision frequency control. Orlando, Fla: Academic Press, 1985.

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21

Kočiš, Štefan. Ultrasonic measurements and technologies. London: Chapman & Hall, 1996.

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22

Parallel CFD '93 Conference (1993 Paris, France). Parallel computational fluid dynamics: New trends and advances : proceedings of the Parallel CFD '93 Conference Paris, France (May 10-12, 1993). Amsterdam: Elsevier, 1995.

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23

Padmanabhan, Mukund. Feedback-based orthogonal digital filters: Theory, applications, and implementation. Boston: Kluwer Academic, 1996.

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24

E, Hershey J., ed. Hadamard matrix analysis and synthesis: With applications to communications and signal/image processing. Boston: Kluwer Academic Publishers, 1997.

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25

Junqua, Jean-Claude. Robustness in automatic speech recognition: Fundamentals and applications. Boston: Kluwer Academic Publishers, 1996.

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26

Hans, Knutsson, ed. Signal processing for computer vision. Dordrecht: Kluwer Academic Publishers, 1995.

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27

I, Halonen K. A., ed. Direct digital synthesizers: Theory, design, and applications. Boston: Kluwer Academic Publishers, 2001.

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28

Parinov, Ivan A., Valeri G. Dneprovski, and Gevork Ya Karapetyan. Surface Acoustic Wave Devices. Nova Science Publishers, Incorporated, 2016.

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29

Tagantsev, Alexander K., Spartak Sh Gevorgian, and Andrei K. Vorobiev. Tuneable Film Bulk Acoustic Wave Resonators. Springer, 2013.

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30

Doicu, Adrian, Yuri A. Eremin, and Thomas Wriedt. Acoustic and Electromagnetic Scattering Analysis Using Discrete Sources. Academic Press, 2000.

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31

Doicu, Adrian, Thomas Wriedt, and Yuri Eremin. Acoustic and Electromagnetic Scattering Analysis Using Discrete Sources. Elsevier Science & Technology Books, 2000.

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32

Acoustic and Electromagnetic Scattering Analysis Using Discrete Sources. Academic Press, 2000.

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33

Program for the feasibility of developing a high pressure acoustic levitator. [Washington, DC]: National Aeronautics and Space Administration, 1988.

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34

Solymar, L., D. Walsh, and R. R. A. Syms. Optoelectronics. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198829942.003.0013.

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The properties of light detectors and light emitting diodes (LEDs) are discussed. Electro-optic, photorefractive, and nonlinear materials are introduced. The phenomenon of phase conjugation is explained. Interaction between acoustic and light waves is shown to be possible. The significance of integrated optics is discussed. Bistability due to the action of nonlinear Fabry–Perot cavities is explained. Optical switching is shown to be an application of micro-electro-mechanical effects. The complicated phenomenon electro-absorption in quantum well structures and its applications are discussed.
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35

Ghafouri-Bakhsh, Shakour. Interfacial electric phenomena and the thickness-shear mode acoustic wave sensor. 2000.

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36

Hansen, Thorkild, and Arthur D. Yaghjian. Plane-Wave Theory of Time-Domain Fields: Near-Field Scanning Applications (IEEE Press Series on Electromagnetic Wave Theory). Wiley-IEEE Press, 1999.

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37

Seminar, International, and Ukraine) Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (4th :. 1999 :. Lviv. Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory: Proceedings of Ivth International Seminar/Workshop : (Lviv, September 20-23, 1999). Ieee, 1999.

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38

Seminar, International, and Georgia) Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (3rd : 1998 : Tbilisi. 1998 Direct and Adverse Problems of Electromagnetic and Acoustic Wave Theory Conference (Diped. Institute of Electrical & Electronics Enginee, 1998.

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39

IEEE Electron Devices Society and IEEE Microwave Theory & Techniques Socie. Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory Conference (Diped 99) Proceedings. IEEE Standards Office, 2000.

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40

Gerber, Eduard A. Precision Frequency Control (Vol 2) (Precision Frequency Control). Academic Pr, 1985.

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41

Gerber, Eduard A. Precision Frequency Control (Vol 2) (Precision Frequency Control). Academic Pr, 1985.

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42

Katsenelenbaum, B. Z., L. Mercader Del Rio, M. Pereyaslavets, M. Sorolla Ayza, and M. Thumm. Theory of Nonuniform Waveguides: The Cross-Section Method (Electromagnetic Waves Series). Institution of Electrical Engineers, 1999.

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43

Introduction to Electroacoustics and Audio Amplifier Design. Kendall Hunt Publishing Company, 2009.

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44

Hamonic, B. F., and M. D. McCollum. Transducers for Sonics and Ultrasonics: Proceedings of the Third International Workshop, Orlando, Florida, U.S.A., May 6-8, 1992. Technomic Pub Co, 1993.

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45

Horing, Norman J. Morgenstern. Superfluidity and Superconductivity. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198791942.003.0013.

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Chapter 13 addresses Bose condensation in superfluids (and superconductors), which involves the field operator ψ‎ having a c-number component (<ψ(x,t)>≠0), challenging number conservation. The nonlinear Gross-Pitaevskii equation is derived for this condensate wave function<ψ>=ψ−ψ˜, facilitating identification of the coherence length and the core region of vortex motion. The noncondensate Green’s function G˜1(1,1′)=−i<(ψ˜(1)ψ˜+(1′))+> and the nonvanishing anomalous correlation function F˜∗(2,1′)=−i<(ψ˜+(2)ψ˜+(1′))+> describe the dynamics and elementary excitations of the non-condensate states and are discussed in conjunction with Landau’s criterion for viscosity. Associated concepts of off-diagonal long-range order and the interpretation of <ψ> as a superfluid order parameter are also introduced. Anderson’s Bose-condensed state, as a phase-coherent wave packet superposition of number states, resolves issues of number conservation. Superconductivity involves bound Cooper pairs of electrons capable of Bose condensation and superfluid behavior. Correspondingly, the two-particle Green’s function has a term involving a product of anomalous bound-Cooper-pair condensate wave functions of the type F(1,2)=−i<(ψ(1)ψ(2))+>≠0, such that G2(1,2;1′,2′)=F(1,2)F+(1′,2′)+G˜2(1,2;1′,2′). Here, G˜2 describes the dynamics/excitations of the non-superfluid-condensate states, while nonvanishing F,F+ represent a phase-coherent wave packet superposition of Cooper-pair number states and off-diagonal long range order. Employing this form of G2 in the G1-equation couples the condensed state with the non-condensate excitations. Taken jointly with the dynamical equation for F(1,2), this leads to the Gorkov equations, encompassing the Bardeen–Cooper–Schrieffer (BCS) energy gap, critical temperature, and Bogoliubov-de Gennes eigenfunction Bogoliubons. Superconductor thermodynamics and critical magnetic field are discussed. For a weak magnetic field, the Gorkov-equations lead to Ginzburg–Landau theory and a nonlinear Schrödinger-like equation for the pair wave function and the associated supercurrent, along with identification of the Cooper pair density. Furthermore, Chapter 13 addresses the apparent lack of gauge invariance of London theory with an elegant variational analysis involving re-gauging the potentials, yielding a manifestly gauge invariant generalization of the London equation. Consistency with the equation of continuity implies the existence of Anderson’s acoustic normal mode, which is supplanted by the plasmon for Coulomb interaction. Type II superconductors and the penetration (and interaction) of quantized magnetic flux lines are also discussed. Finally, Chapter 13 addresses Josephson tunneling between superconductors.
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46

Kocis, Stefan, and Zdenko Figura. Ultrasonic Measurements and Technologies (Sensor Physics and Techniques Series). Springer, 1996.

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47

(Editor), J. Periaux, ed. Parallel Computational Fluid Dynamics '93. Elsevier Publishing Company, 1995.

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48

Martin, Kenneth W., Gábor Péceli, and Mukund Padmanabhan. Feedback-Based Orthogonal Digital Filters: Theory, Applications, and Implementation (The International Series in Engineering and Computer Science). Springer, 1995.

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49

Granlund, Gösta H., and Hans Knutsson. Signal Processing for Computer Vision. Springer, 1994.

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50

Hadamard Matrix Analysis and Synthesis: With Applications to Communications and Signal/Image Processing. Springer, 2011.

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