Polariton Effect in Distributed Feedback Microcavities : Condensed Matter: Electronic Properties, etc.
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概要
- 論文の詳細を見る
The excitonic and photonic states in distributed feedback (DFB) microcavities may strongly couple to form DFB cavity polaritons, provided that excitonic oscillator strength is large enough. In this paper we theoretically analyse the optical properties of DFB microcavities related to polariton effect. A numerical method based on scattering matrix formalism has been developed to solve the Maxwell's equations for layered system with periodical patterning of layers. To incorporate polaritonic effect in our model we included the exciton poles in dielectric susceptibility of one of the patterned layers. Using this method we reproduce the characteristic features, demonstrated in recent experiments [Fujita et al.: Phys. Rev. B 57 (1998) 12428], such as anticrossing behavior of transmission dips in vicinity of the excitonic resonance and strong polarization dependence of their position and depth.
- 社団法人日本物理学会の論文
- 2001-04-15
著者
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Tikhodeev Sergei
General Physical Institute (moscow)
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Tikhodeev Sergei
General Physics Institute Russian Academy Of Sciences
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YABLONSKII Alexander
Frontier Research System, RIKEN
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MULJAROV Egor
General Physics Institute, Russian Academy of Sciences
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GIPPIUS Nikolai
General Physics Institute, Russian Academy of Sciences
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FUJITA Tohru
Department of Physical Electronics, Hiroshima University
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ISHIHARA Teruya
Frontier Research System, RIKEN
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Gippius Nikolai
General Physics Institute Russian Academy Of Sciences
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Muljarov Egor
General Physics Institute Russian Academy Of Sciences
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Fujita Tohru
Department Of Physical Electronics Hiroshima University
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Fujita Tohru
Department Of Physical Electronics Faculty Of Engineering Hiroshima University
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Yablonskii Alexander
Frontier Research System Riken:general Physics Institute Russian Academy Of Sciences
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Ishihara Teruya
Frontier Research System Riken
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