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245 1 0 _aConfined Photon Systems
_h[electronic resource] :
_bFundamentals and Applications Lectures from the Summerschool Held in Cargèse, Corsica, 3–15 August 1998 /
_cedited by Henri Benisty, Claude Weisbuch, École Polytechnique, Jean-Michel Gérard, Romuald Houdré, John Rarity.
246 3 _aLectures from the Summerschool Held in Cargese, Corsica, 3-15 August 1998
264 1 _aBerlin, Heidelberg :
_bSpringer Berlin Heidelberg,
_c1999.
300 _aX, 502 p. 169 illus.
_bonline resource.
336 _atext
_btxt
_2rdacontent
337 _acomputer
_bc
_2rdamedia
338 _aonline resource
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347 _atext file
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490 1 _aLecture Notes in Physics,
_x0075-8450 ;
_v531
505 0 _aBasics of quantum optics and cavity quantum electrodynamics -- Basics of dipole emission from a planar cavity -- Microscopic theory of the optical semiconductor response near the fundamental absorption edge -- An introduction to photonic crystals -- Linear optical properties of semiconductor microcavities with embedded quantum wells -- Spontaneous emission control and microcavity light emitters -- Cavity QED — where’s the Q? -- Quantum optics in semiconductors -- Semiconductor microcavities, quantum boxes and the Purcell effect -- Single photon sources and applications -- Photonic crystals for nonlinear optical frequency conversion -- Physics of light extraction efficiency in planar microcavity light-emitting diodes -- Measuring the optical properties of two-dimensional photonic crystals in the near infrared -- Limitations to optical communications -- Thoughts on quantum computation.
520 _aConfined photon system such as microcavities and photonic crystals are currently of great interest, both in terms of fundamental physics and as a result of potential applications. They enable the study of low-dimensional photonic systems, modified light-matter interaction, e.g. between excitons and photons in all-solid-state semiconductor microcavities, and of many phenomena of quantum optics, including single photon generation, squeezed light, quantum state entanglement, non-local quantum measurements, and, potentially, quantum computation. They are also on the verge of yielding new, high performance optical devices for large-scale industries such as telecommunications and display technology. The lectures in this book are organized in a didactic fashion, with a group of in-depth introductory lectures followed by more specialist contributions detailing particular applications of confined photon systems.
650 0 _aOptical materials.
650 1 4 _aOptics, Lasers, Photonics, Optical Devices.
_0http://scigraph.springernature.com/things/product-market-codes/P31030
650 2 4 _aQuantum Optics.
_0http://scigraph.springernature.com/things/product-market-codes/P24050
650 2 4 _aOptical and Electronic Materials.
_0http://scigraph.springernature.com/things/product-market-codes/Z12000
700 1 _aBenisty, Henri.
_eeditor.
_4edt
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700 1 _aWeisbuch, Claude.
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700 1 _aPolytechnique, École.
_eeditor.
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700 1 _aGérard, Jean-Michel.
_eeditor.
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700 1 _aHoudré, Romuald.
_eeditor.
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700 1 _aRarity, John.
_eeditor.
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710 2 _aSpringerLink (Online service)
773 0 _tSpringer eBooks
776 0 8 _iPrinted edition:
_z9783662142288
776 0 8 _iPrinted edition:
_z9783662142271
776 0 8 _iPrinted edition:
_z9783540664352
830 0 _aLecture Notes in Physics,
_x0075-8450 ;
_v531
856 4 0 _uhttps://doi.org/10.1007/BFb0104378
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