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Modeling Transmission Time of Silicon Nanophotonic Waveguides
We propose a simple computational model for silicon nanophotonic waveguides which simulates the full spectral distribution function of propagation time (group delay), including the role of interfaces and roughness. Experimental validation is shown using complex field measurements of light transmissi...
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Published in: | IEEE photonics technology letters 2012-08, Vol.24 (16), p.1418-1420 |
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container_end_page | 1420 |
container_issue | 16 |
container_start_page | 1418 |
container_title | IEEE photonics technology letters |
container_volume | 24 |
creator | Schneider, M. A. Mookherjea, S. |
description | We propose a simple computational model for silicon nanophotonic waveguides which simulates the full spectral distribution function of propagation time (group delay), including the role of interfaces and roughness. Experimental validation is shown using complex field measurements of light transmission on fabricated waveguides. |
doi_str_mv | 10.1109/LPT.2012.2205563 |
format | article |
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A. ; Mookherjea, S.</creator><creatorcontrib>Schneider, M. A. ; Mookherjea, S.</creatorcontrib><description>We propose a simple computational model for silicon nanophotonic waveguides which simulates the full spectral distribution function of propagation time (group delay), including the role of interfaces and roughness. 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A.</creatorcontrib><creatorcontrib>Mookherjea, S.</creatorcontrib><title>Modeling Transmission Time of Silicon Nanophotonic Waveguides</title><title>IEEE photonics technology letters</title><addtitle>LPT</addtitle><description>We propose a simple computational model for silicon nanophotonic waveguides which simulates the full spectral distribution function of propagation time (group delay), including the role of interfaces and roughness. Experimental validation is shown using complex field measurements of light transmission on fabricated waveguides.</description><subject>Computational modeling</subject><subject>Delay</subject><subject>Integrated circuit modeling</subject><subject>Optical interconnects</subject><subject>Optical waveguides</subject><subject>Photonics</subject><subject>Semiconductor device measurement</subject><subject>Silicon</subject><subject>silicon nanophotonics</subject><subject>waveguide devices</subject><issn>1041-1135</issn><issn>1941-0174</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><recordid>eNo9j09LAzEQxYMoWKt3wct-ga0zSTbdPXiQolWof8AVj8skO6mRdlM2VfDbu6XF07x5vPfgJ8QlwgQRquvFaz2RgHIiJRSFUUdihJXGHHCqjwcNg0ZUxak4S-kLAHWh9EjcPMWWV6FbZnVPXVqHlELssjqsOYs-ewur4Ib_mbq4-Yzb2AWXfdAPL79Dy-lcnHhaJb443LF4v7-rZw_54mX-OLtd5E4atc3RKEPYFq2XxKW1U_ZgjSTSzjp23pelN0ilZV1NoSCwpSFbgRzsig2psYD9rutjSj37ZtOHNfW_DUKzw28G_GaH3xzwh8rVvhKY-T9upDIAWv0BMyVXkg</recordid><startdate>20120815</startdate><enddate>20120815</enddate><creator>Schneider, M. 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A. ; Mookherjea, S.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c263t-1636a1d5df2ae8bb7ef0b62aa4cbcecff88f61a8be49705a0b86ab9028f69e6a3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2012</creationdate><topic>Computational modeling</topic><topic>Delay</topic><topic>Integrated circuit modeling</topic><topic>Optical interconnects</topic><topic>Optical waveguides</topic><topic>Photonics</topic><topic>Semiconductor device measurement</topic><topic>Silicon</topic><topic>silicon nanophotonics</topic><topic>waveguide devices</topic><toplevel>online_resources</toplevel><creatorcontrib>Schneider, M. A.</creatorcontrib><creatorcontrib>Mookherjea, S.</creatorcontrib><collection>IEEE All-Society Periodicals Package (ASPP) 2005-present</collection><collection>IEEE All-Society Periodicals Package (ASPP) 1998–Present</collection><collection>IEEE/IET Electronic Library</collection><collection>CrossRef</collection><jtitle>IEEE photonics technology letters</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Schneider, M. A.</au><au>Mookherjea, S.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Modeling Transmission Time of Silicon Nanophotonic Waveguides</atitle><jtitle>IEEE photonics technology letters</jtitle><stitle>LPT</stitle><date>2012-08-15</date><risdate>2012</risdate><volume>24</volume><issue>16</issue><spage>1418</spage><epage>1420</epage><pages>1418-1420</pages><issn>1041-1135</issn><eissn>1941-0174</eissn><coden>IPTLEL</coden><abstract>We propose a simple computational model for silicon nanophotonic waveguides which simulates the full spectral distribution function of propagation time (group delay), including the role of interfaces and roughness. Experimental validation is shown using complex field measurements of light transmission on fabricated waveguides.</abstract><pub>IEEE</pub><doi>10.1109/LPT.2012.2205563</doi><tpages>3</tpages></addata></record> |
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issn | 1041-1135 1941-0174 |
language | eng |
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source | IEEE Electronic Library (IEL) Journals |
subjects | Computational modeling Delay Integrated circuit modeling Optical interconnects Optical waveguides Photonics Semiconductor device measurement Silicon silicon nanophotonics waveguide devices |
title | Modeling Transmission Time of Silicon Nanophotonic Waveguides |
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