文件名称:IEEEXplore
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this my article about PhCMC filters
title : "Tuneable Silicon Photonic Crystal Microcavity Filter by Using Nonuniform
Structures"
Abstract:
A silicon photonic crystal microcavity filter is simulated and analysed using the finite difference time domain method, to have a proper pass band around the desired frequency of 1550nm. We found that it is possible to have a reasonable tenability and transmittance at a special frequency using tapered and non-symmetric structure.
Keywords: Photonic crystals, filters, finite difference time domain
-this is my article about PhCMC filters
title : "Tuneable Silicon Photonic Crystal Microcavity Filter by Using Nonuniform
Structures"
Abstract:
A silicon photonic crystal microcavity filter is simulated and analysed using the finite difference time domain method, to have a proper pass band around the desired frequency of 1550nm. We found that it is possible to have a reasonable tenability and transmittance at a special frequency using tapered and non-symmetric structure.
Keywords: Photonic crystals, filters, finite difference time domain
title : "Tuneable Silicon Photonic Crystal Microcavity Filter by Using Nonuniform
Structures"
Abstract:
A silicon photonic crystal microcavity filter is simulated and analysed using the finite difference time domain method, to have a proper pass band around the desired frequency of 1550nm. We found that it is possible to have a reasonable tenability and transmittance at a special frequency using tapered and non-symmetric structure.
Keywords: Photonic crystals, filters, finite difference time domain
-this is my article about PhCMC filters
title : "Tuneable Silicon Photonic Crystal Microcavity Filter by Using Nonuniform
Structures"
Abstract:
A silicon photonic crystal microcavity filter is simulated and analysed using the finite difference time domain method, to have a proper pass band around the desired frequency of 1550nm. We found that it is possible to have a reasonable tenability and transmittance at a special frequency using tapered and non-symmetric structure.
Keywords: Photonic crystals, filters, finite difference time domain
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