LEADER 00000cam  2200445Ia 4500 
001    ocn162587852 
003    OCoLC 
005    20100729101520.0 
006    m        d         
007    cr cn||||||||| 
008    070806s2007    ne a    ob    001 0 eng d 
020    9780444528384 
020    0444528385 
035    (OCoLC)162587852 
037    134558:134689|bElsevier Science & Technology|nhttp://
       www.sciencedirect.com 
040    OPELS|cOPELS|dOPELS 
049    TEFA 
050 14 QC176.8.P55|bN36 2007eb 
082 04 530.4/4|222 
245 00 Nanophotonics with surface plasmons|h[electronic resource]
       /|cedited by V.M. Shalaev, S. Kawata 
250    1st ed 
260    Amsterdam ;|aBoston :|bElsevier,|c2007 
300    xiv, 325 p. :|bill. (some col.) ;|c24 cm 
440  0 Advances in nano-optics and nano-photonics,|x1871-0018 
504    Includes bibliographical references and index 
505 0  1. Dynamic Components Utilizing Long-Range Surface Plasmon
       Polaritons, by S.I. Bozhevolnyi -- 2. Metal Strip and Wire
       Waveguides for Surface Plasmon Polaritons, by J.R. Krenn, 
       J.-C. Weeber and A. Dereux -- 3. Super-Resolution 
       Microscopy Using Surface Plasmon Polaritons, by I.I. 
       Smolyaninov and A.V. Zayats -- 4. Active Plasmonics, A.V. 
       Krasavin, K.F. MacDonald and N.I. Zheludev -- 5. Surface 
       Plasmons and Gain Media, by M.A. Noginov, G. Zhu, V.P. 
       Drachev and V.M. Shalaev -- 6. Optical Super-Resolution 
       for Ultra-High Density Optical Data Storage, by J. 
       Tominaga -- 7. Metal Stripe Surface Plasmon Waveguides, by
       R. Zia and M.L. Brongersma -- 8. Biosensing with Plasmonic
       Nanoparticles, by T.A. Klar -- 9. Thin Metal-Dielectric 
       Nanocomposites with the Negative Index of Refraction, by 
       A.V. Kildishev, V.P. Drachev and V.M. Shalaev 
520    Current developments in optical technologies are being 
       directed toward nanoscale devices with subwavelength 
       dimensions, in which photons are manipulated on the 
       nanoscale. Although light is clearly the fastest means to 
       send information to and from the nanoscale, there is a 
       fundamental incompatibility between light at the 
       microscale and devices and processes at the nanoscale. 
       Nanostructured metals which support surface plasmon modes 
       can concentrate electromagnetic (EM) fields to a small 
       fraction of a wavelength while enhancing local field 
       strengths by several orders of magnitude. For this reason,
       plasmonic nanostructures can serve as optical couplers 
       across the nanomicro interface: metaldielectric and 
       metalsemiconductor nanostructures can act as optical 
       nanoantennae and enhance light matter coupling in 
       nanoscale devices. This book describes how one can fully 
       integrate plasmonic nanostructures into dielectric, 
       semiconductor, and molecular photonic devices, for guiding
       photons across the nanomicro interface and for detecting 
       molecules with unsurpassed sensitivity. Nanophotonics and 
       Nanoplasmonics Metamaterials and negative-index materials 
       Plasmon-enhanced sensing and spectroscopy Imaging and 
       sensing on the nanoscale Metal Optics 
533    Electronic reproduction.|bAmsterdam :|cElsevier Science & 
       Technology,|d2007.|nMode of access: World Wide Web.
       |nSystem requirements: Web browser.|nTitle from title 
       screen (viewed on Aug. 2, 2007).|nAccess may be restricted
       to users at subscribing institutions 
590    Elsevier 
590    Elsevier 
650  0 Plasmons (Physics) 
650  0 Nanostructures|xOptical properties 
650  0 Surface plasmon resonance 
650  0 Quantum optics 
655  7 Electronic books.|2local 
700 1  Shalaev, Vladimir M.,|d1957- 
700 1  Kawata, Satoshi,|d1966- 
710 2  ScienceDirect (Online service) 
776 1  |cOriginal|z0444528385|z9780444528384|w(DLC)  2006050299
       |w(OCoLC)70881751 
856 40 |3ScienceDirect|uhttp://www.sciencedirect.com/science/book
       /9780444528384|zeBook(Elsevier)