High-quality multiple-working-wavelength photonic crystal diodes based on the Fano resonance of nonlinear defects

All-optical photonic crystal diodes based on the Fano resonance of nonlinear defects are studied. The diodes can achieve nonreciprocal transmission ratios of 31.7 dB and 33.9 dB at working wavelengths of 1534.83 nm and 1536.02 nm, respectively. The function of two defects' coupling to the perfo...

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Veröffentlicht in:	Applied optics (2004) 2020-05, Vol.59 (14), p.4499-4506
Hauptverfasser:	Fan, Haoran, Liu, Kaizhu, Hong, Xiaorong, Feng, Shuai, Li, Chuanbo, Guo, Honglian
Format:	Artikel
Sprache:	eng
Schlagworte:	Crystal defects Defects Diodes Fano resonance Light transmission Photonic crystals Wavelengths
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container_title	Applied optics (2004)
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creator	Fan, Haoran Liu, Kaizhu Hong, Xiaorong Feng, Shuai Li, Chuanbo Guo, Honglian
description	All-optical photonic crystal diodes based on the Fano resonance of nonlinear defects are studied. The diodes can achieve nonreciprocal transmission ratios of 31.7 dB and 33.9 dB at working wavelengths of 1534.83 nm and 1536.02 nm, respectively. The function of two defects' coupling to the performance of unidirectional light transmission is also analyzed. When two Fano cavities are cascaded to form a two-branch-channel diode, unidirectional light propagation at 1536.88, 1538.76, 1612.80, and 1616.78 nm wavelengths is achieved along two opposite forward directions, and the nonreciprocal transmission ratios are 36.5, 30.3, 23.9, and 19.6 dB, respectively.
doi_str_mv	10.1364/AO.389677
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The diodes can achieve nonreciprocal transmission ratios of 31.7 dB and 33.9 dB at working wavelengths of 1534.83 nm and 1536.02 nm, respectively. The function of two defects' coupling to the performance of unidirectional light transmission is also analyzed. 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source	Alma/SFX Local Collection; Optica Publishing Group Journals
subjects	Crystal defects Defects Diodes Fano resonance Light transmission Photonic crystals Wavelengths
title	High-quality multiple-working-wavelength photonic crystal diodes based on the Fano resonance of nonlinear defects
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