Modeling of uniaxial anisotropic fibers with noncircular cross section by the method of lines
Fibers of noncircular cross sections are analyzed by a new algorithm based on the method of lines with discretization lines of unequal length. The material may have uniaxial anisotropy. The tangential field components have been matched at the noncircular interface of the structures. Results are show...
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| Veröffentlicht in: | Journal of lightwave technology 2003-05, Vol.21 (5), p.1294-1299 |
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| container_title | Journal of lightwave technology |
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| creator | Pregla, R. Conradi, O. |
| description | Fibers of noncircular cross sections are analyzed by a new algorithm based on the method of lines with discretization lines of unequal length. The material may have uniaxial anisotropy. The tangential field components have been matched at the noncircular interface of the structures. Results are shown for waveguides with elliptical and star-shaped cross section. To study the accuracy of the proposed algorithm, the results have been compared with other methods. |
| doi_str_mv | 10.1109/JLT.2003.810930 |
| format | Article |
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The material may have uniaxial anisotropy. The tangential field components have been matched at the noncircular interface of the structures. Results are shown for waveguides with elliptical and star-shaped cross section. To study the accuracy of the proposed algorithm, the results have been compared with other methods.</description><identifier>ISSN: 0733-8724</identifier><identifier>EISSN: 1558-2213</identifier><identifier>DOI: 10.1109/JLT.2003.810930</identifier><identifier>CODEN: JLTEDG</identifier><language>eng</language><publisher>New York, NY: IEEE</publisher><subject>Accuracy ; Admittance ; Algorithm design and analysis ; Algorithms ; Anisotropic magnetoresistance ; Anisotropy ; Applied sciences ; Boundary conditions ; Circuit properties ; Cross sections ; Discretization ; Electric, optical and optoelectronic circuits ; Electronics ; Exact sciences and technology ; Fibers ; Impedance ; Integrated optics. Optical fibers and wave guides ; Mathematical models ; Method of lines ; Optical and optoelectronic circuits ; Optical fibers ; Optical materials ; Optical waveguides ; Partial differential equations ; Transmission line matrix methods ; Waveguides</subject><ispartof>Journal of lightwave technology, 2003-05, Vol.21 (5), p.1294-1299</ispartof><rights>2003 INIST-CNRS</rights><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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The material may have uniaxial anisotropy. The tangential field components have been matched at the noncircular interface of the structures. Results are shown for waveguides with elliptical and star-shaped cross section. To study the accuracy of the proposed algorithm, the results have been compared with other methods.</description><subject>Accuracy</subject><subject>Admittance</subject><subject>Algorithm design and analysis</subject><subject>Algorithms</subject><subject>Anisotropic magnetoresistance</subject><subject>Anisotropy</subject><subject>Applied sciences</subject><subject>Boundary conditions</subject><subject>Circuit properties</subject><subject>Cross sections</subject><subject>Discretization</subject><subject>Electric, optical and optoelectronic circuits</subject><subject>Electronics</subject><subject>Exact sciences and technology</subject><subject>Fibers</subject><subject>Impedance</subject><subject>Integrated optics. Optical fibers and wave guides</subject><subject>Mathematical models</subject><subject>Method of lines</subject><subject>Optical and optoelectronic circuits</subject><subject>Optical fibers</subject><subject>Optical materials</subject><subject>Optical waveguides</subject><subject>Partial differential equations</subject><subject>Transmission line matrix methods</subject><subject>Waveguides</subject><issn>0733-8724</issn><issn>1558-2213</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2003</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNp9kc9LHDEUx4NUcKuee_ASCrW9zJrfyRxF-ku29LJXCZnMixuZnWyTGar_vdmuIPTgKYR83jfvvQ9CHyhZUkraq9vVeskI4UtTb5wcoQWV0jSMUf4OLYjmvDGaiRP0vpQHQqgQRi_Q3a_UwxDHe5wCnsfoHqMbsBtjSVNOu-hxiB3kgv_GaYPHNPqY_Ty4jH1OpeACfoppxN0TnjaAtzBtUr_PqplQztBxcEOB85fzFK2_fV3f_GhWv7__vLleNV5QNjVgJAtOSw5EU60NKE-Fl0FSpYzqwXe-c7w3wESroOt7TqXhRgsSeO8CP0WfD7G7nP7MUCa7jcXDMLgR0lxsS6hqheGykpdvkszwltVfKvjlTZAqTYWiSuiKfvwPfUhzHuu81hjBlCREVOjqAP1bW4ZgdzluXX6ylNi9P1v92b0_e_BXKz69xLri3RCyq7svr2WirZTad3px4CIAvD5X7dII_gwB-aLu</recordid><startdate>20030501</startdate><enddate>20030501</enddate><creator>Pregla, R.</creator><creator>Conradi, O.</creator><general>IEEE</general><general>Institute of Electrical and Electronics Engineers</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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Optical fibers and wave guides</topic><topic>Mathematical models</topic><topic>Method of lines</topic><topic>Optical and optoelectronic circuits</topic><topic>Optical fibers</topic><topic>Optical materials</topic><topic>Optical waveguides</topic><topic>Partial differential equations</topic><topic>Transmission line matrix methods</topic><topic>Waveguides</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Pregla, R.</creatorcontrib><creatorcontrib>Conradi, O.</creatorcontrib><collection>IEEE All-Society Periodicals Package (ASPP) 1998-Present</collection><collection>IEEE Electronic Library (IEL)</collection><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>Electronics & Communications Abstracts</collection><collection>Solid State and Superconductivity Abstracts</collection><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Journal of lightwave technology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Pregla, R.</au><au>Conradi, O.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Modeling of uniaxial anisotropic fibers with noncircular cross section by the method of lines</atitle><jtitle>Journal of lightwave technology</jtitle><stitle>JLT</stitle><date>2003-05-01</date><risdate>2003</risdate><volume>21</volume><issue>5</issue><spage>1294</spage><epage>1299</epage><pages>1294-1299</pages><issn>0733-8724</issn><eissn>1558-2213</eissn><coden>JLTEDG</coden><abstract>Fibers of noncircular cross sections are analyzed by a new algorithm based on the method of lines with discretization lines of unequal length. The material may have uniaxial anisotropy. The tangential field components have been matched at the noncircular interface of the structures. Results are shown for waveguides with elliptical and star-shaped cross section. To study the accuracy of the proposed algorithm, the results have been compared with other methods.</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/JLT.2003.810930</doi><tpages>6</tpages></addata></record> |
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| ispartof | Journal of lightwave technology, 2003-05, Vol.21 (5), p.1294-1299 |
| issn | 0733-8724 1558-2213 |
| language | eng |
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| source | IEEE Electronic Library (IEL) |
| subjects | Accuracy Admittance Algorithm design and analysis Algorithms Anisotropic magnetoresistance Anisotropy Applied sciences Boundary conditions Circuit properties Cross sections Discretization Electric, optical and optoelectronic circuits Electronics Exact sciences and technology Fibers Impedance Integrated optics. Optical fibers and wave guides Mathematical models Method of lines Optical and optoelectronic circuits Optical fibers Optical materials Optical waveguides Partial differential equations Transmission line matrix methods Waveguides |
| title | Modeling of uniaxial anisotropic fibers with noncircular cross section by the method of lines |
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