Lasing modes of infinite periodic chain of quantum wires
Date
2009-06-07
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Source Title
ICTON 2009: 11th International Conference on Transparent Optical Networks
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Publisher
IEEE
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Pages
1 - 4
Language
English
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Abstract
In this paper, we study the scattering and eigenvalue problems for a periodic open optical resonator that is an infinite chain of active circular cylindrical quantum wires standing in free space. The scattering problem is solved by the method of partial separation of variables. The eigenvalue problem differs from the first one by the absence of the incident field and presence of "active properties" of cylinders and yields the frequencies and thresholds of lasing. ©2009 IEEE.
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Keywords
Eigenproblem , Floquet series , Laser , Microcavity , Quantum wire , Scattering , Threshold , Eigenvalue problem , Free space , Incident fields , Infinite chains , Lasing modes , Partial separation , Periodic chains , Quantum wires , Scattering problems , Eigenvalues and eigenfunctions , Indium compounds , Microcavities , Nanowires , Optical materials , Semiconductor quantum wires , Switching systems , Wire , Transparent optical networks