Lasing Modes in a Spiral-Shaped Microcavity(1)Current topics of quantum chaos in nanosciences, Chaos and Nonlinear Dynamics in Quantum-Mechanical and Macroscopic Systems)
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概要
- 論文の詳細を見る
この論文は国立情報学研究所の電子図書館事業により電子化されました。Lasing modes in a two-dimensional spiral-shaped microcavity are numerically studied in a nonlinear dynamical model, Schrodinger-Bloch model. The stationary lasing mode of the model is analyzed by comparing to the resonances in the corresponding passive cavity. We also investigate the quasiscarring patterns when a selective pumping is applied. We discuss the dynamical behavior of electric field intensity during the transient in the nonlinear dynamical model.
- 物性研究刊行会の論文
- 2005-06-20
著者
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Kwon Tae-yoon
National Creative Research Initiative Center For Controlling Optical Chaos Department Of Physics Pai
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Kim Chil-min
National Creative Research Initiative Center For Controlling Optical Chaos Department Of Physics Pai
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Lee Soo-young
National Creative Research Initiative Center For Controlling Optical Chaos Department Of Physics Pai
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Lee Soo‐young
Department Of Biosystems And The Department Of Electrical Engineering Korea Advanced Institute Of Sc
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Park Young-Jai
Department of Physics, Sogang University
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Park Young-jai
Department Of Physics Sogang University
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KWON Tae-Yoon
National Creative Research Initiative Center for Controlling Optical Chaos, Department of Physics, Pai Chai University
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KIM Chil-Min
National Creative Research Initiative Center for Controlling Optical Chaos, Department of Physics, Pai Chai University
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Kwon Tae-Yoon
National Creative Research Initiative Center for Controlling Optical Chaos, Paichai University:Department of Physics, Sogang University
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LEE Soo-Young
National Creative Research Initiative Center for Controlling Optical Chaos, Department of Physics, Pai Chai University
関連論文
- Characteristics of Lasing Modes in a Spiral-Shaped Microcavity(Quantum Mechanics and Chaos)
- Lasing Modes in a Spiral-Shaped Microcavity(1)Current topics of quantum chaos in nanosciences, Chaos and Nonlinear Dynamics in Quantum-Mechanical and Macroscopic Systems)