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Books on the topic 'Plasmonic wave'

Author: Grafiati
Published: 11 October 2021
Last updated: 30 July 2025

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1

1955-, Bozhevolnyi Sergey I., ed. Plasmonic nanoguides and circuits. Pan Stanford, 2009.

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2

1955-, Bozhevolnyi Sergey I., ed. Plasmonic nanoguides and circuits. Distributed by World Scientific Pub., 2009.

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3

1955-, Bozhevolnyi Sergey I., ed. Plasmonic nanoguides and circuits. Distributed by World Scientific Pub., 2009.

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4

S, Tsai Chen, ed. Guided-wave acousto-optics: Interactions, devices, and applications. Springer-Verlag, 1990.

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5

1927-, Tamir Theodor, Griffel Giora, Bertoni Henry L, and Weber Research Institute International Symposium on Guided-Wave Optoelectronics: Device Characterization, Analysis, and Design (4th : 1994 : Brooklyn, N.Y.), eds. Guided-wave optoelectronics: Device characterization, analysis, and design. Plenum Press, 1995.

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6

Weiner, John. Light-matter interaction: Physics and engineering at the nanoscale. Oxford University Press, 2013.

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7

Fan, Xudong. Advanced Photonic Structures for Biological and Chemical Detection. Springer-Verlag New York, 2009.

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8

Korol, Andrey V. Channeling and Radiation in Periodically Bent Crystals. Springer Berlin Heidelberg, 2013.

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9

service), SpringerLink (Online, ed. Electromagnetic Radiation of Electrons in Periodic Structures. Springer-Verlag Berlin Heidelberg, 2011.

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10

Israel, Gannot, Tanev S, and SpringerLink (Online service), eds. Optical Waveguide Sensing and Imaging. Springer Science+Business Media, B.V, 2008.

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11

Bozhevolnyi, Sergey. Plasmonic Nanoguides and Circuits. Jenny Stanford Publishing, 2019.

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12

Bozhevolnyi, Sergey. Plasmonic Nanoguides and Circuits. Jenny Stanford Publishing, 2019.

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13

Lin, C. W., N. F. Chiu, and C. C. Chang. Modulation design of plasmonics for diagnostic and drug screening. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.18.

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This article discusses the modulation design of plasmonics for diagnosis and drug screening applications. It begins with an overview of the advances made in terms of theoretical insights, focusing on the origins of surface plasmon wave and manipulation, admittance loci design method, and surface plasmon grating coupled emission. It then considers how prism coupler, Ge-doped silica waveguide, nanograting and active plasmonics can trigger the excitation of surface plasmon resonance (SPR). It also examines the metallic effect of long-range surface plasmon resonance and conducting metal oxide as a
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14

Bertolotti, Mario, Concita Sibilia, and Angela M. Guzman. Evanescent Waves in Optics: An Introduction to Plasmonics. Springer, 2018.

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15

Bertolotti, Mario, Concita Sibilia, and Angela M. Guzman. Evanescent Waves in Optics: An Introduction to Plasmonics. Springer, 2017.

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16

Werner, Douglas H., Sawyer D. Campbell, and Lei Kang. Nanoantennas and Plasmonics: Modelling, Design and Fabrication. Institution of Engineering & Technology, 2020.

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17

Nanoantennas and Plasmonics: Modelling, Design and Fabrication. Institution of Engineering & Technology, 2020.

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18

Greffet, Jean-Jacques. Introduction to near-field optics and plasmonics. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198768609.003.0002.

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A striking difference between near-field optics and far-field optics is the possibility of breaking the so-called diffraction limit, namely of confining light to subwavelength spots. The first section of this chapter introduces the concept of evanescent waves to discuss the subwavelength confinement of light. One of the key ideas put forward is that the presence of charges is required to generate highly localized fields. It is thus necessary to have a tool to compute fields in the presence of these charges. With this aim, the concept of the Green tensor is introduced in the second section. Thi
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19

Hawkes, Peter, and Martin Hytch. Plasmon Coupling Physics, Wave Effects and Their Study by Electron Spectroscopies. Elsevier Science & Technology, 2022.

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20

Hawkes, Peter W., and Martin Hÿtch. Plasmon Coupling Physics, Wave Effects and Their Study by Electron Spectroscopies. Elsevier Science & Technology Books, 2022.

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21

Tsukerman, Igor. Computational Methods for Nanoscale Applications: Particles, Plasmons and Waves. Springer International Publishing AG, 2021.

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22

Tsukerman, Igor. Computational Methods for Nanoscale Applications: Particles, Plasmons and Waves. Springer, 2010.

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23

Tsukerman, Igor. Computational Methods for Nanoscale Applications: Particles, Plasmons and Waves. Springer London, Limited, 2007.

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24

Tsukerman, Igor. Computational Methods for Nanoscale Applications: Particles, Plasmons and Waves. Springer, 2020.

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25

Computational methods for nanoscale applications: Particles, plasmons and waves. Springer, 2008.

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26

Dzedolik, Igor V. Solitons and Nonlinear Waves of Phonon-Polaritons and Plasmon-Polaritons. Nova Science Publishers, Incorporated, 2016.

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27

Guided-Wave Acousto-Optics: Interactions, Devices, and Applications. Springer London, Limited, 2011.

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28

Singularities of Caustics and Wave Fronts (Mathematics and Its Applications). Springer, 2001.

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29

(Editor), Theodor Tamir, Giora Griffel (Editor), and Henry L. Bertoni (Editor), eds. Guided-Wave Optoelectronics: Device Characterization, Analysis, and Design. Springer, 1995.

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30

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
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31

Ho, P. T., and John Weiner. LightMatter Interaction , Fundamentals and Applications. Wiley-Interscience, 2003.

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32

Optical Microresonators: Theory, Fabrication, and Applications (Springer Series in Optical Sciences). Springer, 2007.

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33

Heebner, John, Rohit Grover, and Tarek Ibrahim. Optical Microresonators: Theory, Fabrication, and Applications. Springer, 2010.

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34

Fan, Xudong. Advanced Photonic Structures for Biological and Chemical Detection. Springer, 2012.

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35

Greiner, Walter, Andrey V. Korol, and Andrey V. Solov'yov. Channeling and Radiation in Periodically Bent Crystals. Springer, 2014.

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36

Greiner, Walter, Andrey V. Korol, and Andrey V. Solov'yov. Channeling and Radiation in Periodically Bent Crystals. Springer London, Limited, 2014.

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37

Magnetism and synchrotron radiation: New trends. Springer, 2010.

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38

Kivshar, Yuri S., Cornelia Denz, and Sergej Flach. Nonlinearities in Periodic Structures and Metamaterials. Springer, 2012.

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39

Kivshar, Yuri S., Cornelia Denz, and Sergej Flach. Nonlinearities in Periodic Structures and Metamaterials. Springer, 2011.

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40

Kivshar, Yuri S., Cornelia Denz, and Sergej Flach. Nonlinearities in Periodic Structures and Metamaterials. Springer London, Limited, 2010.

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41

Nonlinearities In Periodic Structures And Metamaterials. Springer, 2009.

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