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200 00$aA? la recherche de la pre?dication $eautour des syntagmes pre?positionnels /$fe?dite? par Christiane Marque-Pucheu, Universite? Paris-La Sorbonne [and three others]
210  1$aAmsterdam, [Netherlands] ;$aPhiladelphia, [Pennsylvania] :$cJohn Benjamins Publishing Company,$d2016.
210  4$d©2016
215   $a1 online resource (201 pages)
225 1 $aLingvisticć Investigationes Supplementa,$x0165-7569 ;$vVolume 32
300   $a"International colloquium held at the University of Paris-Sorbonne in May 2015."
311   $a90-272-3142-7 
311   $a90-272-6636-0 
320   $aIncludes bibliographical references at the end of each chapters and indexes.
410  0$aLinguisticae investigationes.$pSupplementa ;$vVolume 32.
606   $aGrammar, Comparative and general$xPrepositions$vCongresses
606   $aGrammar, Comparative and general$xVerb phrase$vCongresses
608   $aElectronic books.
615  0$aGrammar, Comparative and general$xPrepositions
615  0$aGrammar, Comparative and general$xVerb phrase
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181   $ctxt
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200 10$aPlasmon resonances in nanoparticles$b[electronic resource] /$fIsaak D Mayergoyz
210   $aSingapore ;$aHackensack, NJ $cWorld Scientific$dc2013
215   $a1 online resource (336 p.)
225 1 $aWorld Scientific series in nanoscience and nanotechnology ;$vvol. 6
300   $aDescription based upon print version of record.
311   $a981-4350-65-6 
320   $aIncludes bibliographical references and index.
327   $aPreface; Contents; 1 Introduction; 1.1 What are Plasmon Resonances?; 1.2 Dispersion Relations; 1.3 Overview of Book Contents; References; 2 Modal Analysis of Plasmon Resonances in Nanoparticles; 2.1 Plasmon Resonances as an Eigenvalue Problem; 2.2 Dual Formulation; 2.3 General Properties of Plasmon Spectrum; 2.4 Plasmon Resonances in Nanoshells; 2.5 Relation to the Riemann Hypothesis; References; 3 Analytical and Numerical Analysis of Plasmon Resonances; 3.1 Some Analytical Solutions for Plasmon Modes; 1. Plasmon modes in nanowires of circular cross sections
327   $a2. Plasmon modes in circular cross-section nanotubes3. Plasmon modes in two adjacent circular cross-section nanowires; 4. Plasmon modes in eccentric nanotubes; 5. Plasmon modes in nanowires of elliptical cross sections; 6. Plasmon modes in spherical nanoparticles; 7. Plasmon modes in spherical nanoshells; 8. Plasmon modes in ellipsoidal nanoparticles; 9. Plasmon modes in ellipsoidal nanoshells; 10. Plasmon modes in toroidal nano-rings; 11. Plasmon modes in two adjacent spherical nanoparticles; 12. Plasmon modes in infinite flat structures
327   $a3.2 Numerical Techniques for the Analysis of Plasmon Modes3.3 Numerical Examples; 1. Plasmon modes in nanowires of elliptical cross section; 2. Plasmon resonances in nanowires of triangular cross section; 3. Plasmon modes in spherical nanoparticles; 4. Plasmon modes in ellipsoidal nanoparticles; 5. Plasmon modes in nano-rings of circular cross sections; 6. Plasmon modes in spherical nano-dimers; 7. Plasmon modes in spherical nano-dimers placed on dielectric substrates; 8. Plasmon modes in nano-rings placed on a dielectric substrate; 9. Plasmon modes in nanocubes
327   $a10. Plasmon modes in gold nanocylinders (nanodisks) on a dielectric substrate11. Plasmon modes in a triangular prism; 12. Plasmon modes in nanoshells; 3.4 Universal Numerical Technique for the Solution of Boundary Integral Equations; 3.5 Absorbing Boundary Conditions for Finite-Difference Time- Domain Analysis of Scattering Problems; References; 4 Radiation Corrections, Excitation of Plasmon Modes and Selective Applications; 4.1 Perturbation Technique; 4.2 First- and Second-Order Radiation Corrections; 4.3 Analysis of Extinction Cross Section
327   $a4.4 Coupling of Plasmon Modes to Incident Radiation, Time-Dynamics of Their Excitation and Dephasing4.5 Selective Applications of Plasmon Resonances; 4.5.1 Plasmon Resonance Enhancement of Faraday Rotation in Garnet Films; 4.5.2 Application of Plasmon Resonances to Heat-Assisted Magnetic Recording; 4.5.3 Application of Plasmon Resonances to All-Optical Magnetic Recording; 4.5.4 SERS and Plasmon Resonances; 4.5.5 Ball Lightning; 4.5.6 Optical Controllability of Plasmon Resonances; References; Index
330   $aThis unique volume provides a broad introduction to plasmon resonances in nanoparticles and their novel applications. Here, plasmon resonances are treated as an eigenvalue problem for specific boundary integral equations and general physical properties of plasmon spectrum are studied in detail. The coupling of incident radiation to specific plasmon modes, the time dynamics of their excitation and dephasing are also analytically treated. Finally, the applications of plasmon resonances to SERS, light controllability (gating) of plasmon resonances in semiconductor nanoparticles, the use of plasmo
410  0$aWorld Scientific series in nanoscience and nanotechnology ;$vv. 6.
606   $aNanoparticles$xOptical properties
606   $aOrganic compounds$xSynthesis
606   $aPhotochemistry
606   $aPlasmons (Physics)
615  0$aNanoparticles$xOptical properties.
615  0$aOrganic compounds$xSynthesis.
615  0$aPhotochemistry.
615  0$aPlasmons (Physics)
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