OptiBPM Publication References – 2005 (and earlier)

Compatibility:

Listing of scientific papers, technical journals, periodicals, and conference publications which reference the use of OptiBPM.

[1] Cleary, A. et. al.; An integrated fluorescence array as a platform for lab-on-a-chip technology using multimode interference splitters, IEEE Sensors Journal. pp. 1315-1320, 2005;

[2] F. Dürr; Analytical Design of X-Couplers, IEEE Journal of lightwave Technology. pp. 876, 2005;

[3] Passaro, V.M.N et. al.; Design of polarisation insensitive vertical couplers in silicon-on-insulator waveguides with small cross section, Conference Paper. pp. 198-203, 2005;

[4] Shoji Kakio et. al.; Diffraction Properties and Beam-Propagation Analysis of Waveguide-Type Acoustooptic Modulator Driven by Surface Acoustic Wave, Japanese Journal of Applied Physics. pp. 4472-4476, 2005;

[5] Andrew Cronin et.al. ; Laser-based workstation for the manufacture of fused biconical tapered coupler devices, Proceedings of SPIE. pp. 505-514, 2005;

[6] Ming Li et. al.; Return loss reduction of integrated grating-assisted optical add/drop multiplexer by control of the reflective spectrum, IEEE Journal of lightwave Technology. pp. 1403-1409, 2005;

[7] Yuvaraja S. et. al.; Systematic Design Approach for Optimized Resonantly Enhanced Mach-Zehnder Modulators, IEEE Journal of lightwave Technology. pp. 555, 2005;

[8] Anuj Bhatnagar et. al.; Variable-width arrayed waveguide demultiplexer on X-cut lithium niobate, Proceedings of SPIE. pp. 338-345, 2005;

[9] Steven Dods ; Fiber Vector Modesolver – Improvements to the Efficient 4×4 Matrix Method, OSA., 2005;

[10] Chmielewska, E et. al. ; Measurements and modeling of modal birefringence and sensitivity to strain in a three-mode elliptical-core fiber, Optical Engineering. pp. 305-312, 2004;

[11] Lidu Huang et. al.; A novel method to measure refractive index of liquid and curable liquid substances, IEEE Photonics Technology Letter. pp. 1137-1139, 2004;

[12] Geetika Jain et. al.; Closed-form modal field expressions in diffused channel waveguides, Proceedings of SPIE. pp. 163-171, 2004;

[13] Ho, S. et. al.; Direct F/sub 2/ laser fabrication of Y-junction waveguides in flame hydrolysis deposited germanium-doped silica, Lasers and Electro-Optics, 2004. (CLEO). Conference on. pp. 3, 2004;

[14] Geetika Jain et. al.; Gain calculation in erbium-doped LiNbO3 channel waveguides by defining a complex index profile, Optical Engineering. pp. 1454-1460, 2004;

[15] Hideki Maruyama et. al.; Novel Nondestructive Readout Methods For Near-field Optical Recording with Large Refractive Index Modulation in Amorphous Diarylethene Layer, Japanese Journal of Applied Physics. pp. 1625-1630, 2004;

[16] Ewa Chmielewska et. al.; Polarimetric sensitivity of a three-mode elliptical-core fiber to strain, Proceedings of SPIE. pp. 364-369, 2004;

[17] Baoxue Chen et. al.; Polarization-independent, thickness-insensitive, and refractive-index-difference-independent broad-band fluorinated polyimide waveguide coupler, IEEE Journal of lightwave Technology. pp. 2341-2347, 2004;

[18] Yoshimura, T et. al.; Self-organized lightwave network based on waveguide films for three-dimensional optical wiring within boxes, IEEE Journal of lightwave Technology. pp. 2091-2100, 2004;

[19] Kassim, N.M et. al. ; Single mode rib optical waveguide modeling techniques, Conference Paper. pp. 272-276, 2004;

[20] N. Ponnampalam et. al.; Small core rib waveguides with embedded gratings in As2Se3 glass, Optics Express. pp. 6270-6277, 2004;

[21] Adrienne E. Turnbull et. al.; Trech isolated rib waveguides on silicon-on-insulator, Proceedings of SPIE. pp. 486-495, 2004;

[22] Minh, Phan Ngoc et. al.; Bach Fabrication of Microlens at the end of Optical Fiber using Self-photolithgraphy and Etching Techniques , Optical Review . pp. 150-154, 2003;

[23] Marko Galarza et. al.; Compact Spot-Size Converters with Fiber-Matched Antiresonant Reflecting Optical Waveguides, Applied Optics. pp. 4841-4846, 2003;

[24] Ruano J.M. et. al.; Design and fabrication of a silica on silicon integrated optical biochip as a fluorescence microarray platform, Biosensors and Bioelectronics. pp. 175-184, 2003;

[25] Y. Zhang et. al.; Design and optimization of high-brightness 980 nm laser diodes with distributed phase correction, Optical and Quantum Electronics. pp. 887-901, 2003;

[26] Thapliya, R. et. al.; Electrooptic characteristics of thin-film PLZT waveguide using ridge-type Mach-Zehnder modulator, IEEE Journal of lightwave Technology. pp. 1820-1827, 2003;

[27] J. de-Oliva-Rubio et. al.; Fast semivectorial non-linear finite-difference beam-propagation method, Microwave and Optical Technology Letter. pp. 73-77, 2003;

[28] Chen, Baoxue et. al.; Optimized design of polarization-independent and temperature-insensitive broadband optical waveguide coupler by use of fluorinated polyimide., Applied Optics. pp. 4196-4201, 2003;

[29] Baoxue Chen et. al.; Optimized Design of Temperature-Insensitive Optical Waveguide Coupler with 120-nm Bandwidth Using Fluorinated Polyimide, Applied Optics. pp. 271-274, 2003;

[30] Apraksin, D.V. et. al.; Simulation of light propagation in diffused channel waveguides, Laser and Fiber-Optical Networks Modeling. pp. 230-232, 2003;

[31] Cleary, A et. al.; Towards optical fluorescence sensing using multimode interference splitters, Proceedings of IEEE, Sensors. pp. 279-282, 2003;

[32] Fu-Ren Hsiao et. al.; A dual-band planar inverted-F patch antenna with a branch-line slit, Microwave and Optical Technology Letter. pp. 310-312, 2002;

[33] Shyh-Lin Tsao et. al.; BPM Simulation and Comparison of 1 × 2 Directional Waveguide Coupling and Y-Junction Coupling Silicon-on-Insulator Optical Couplers, Fiber & Integrated Optics. pp. 417-433, 2002;

[34] Dragan Coric et. al.; Contrasts in writing photonic structures with ultrafast and ultraviolet lasers, Proceedings of SPIE. pp. 77-84, 2002;

[35] Shyh-Lin Tsao et. al.; Design and simulation of a 2×2N SOI optical power splitter, Microwave and Optical Technology Letter. pp. 307-310, 2002;

[36] Ishii, Y. et. al.; Precise determination of local birefringence of optical fibers by long-period fiber grating analysis, Conference Paper. pp. 686-688, 2002;

[37] Dragan Coric et. al.; Prospects for ultra-fast laser writing of three-dimentional photonic devices for Telecom applications, Conference Paper., 2002;

[38] Mule, A.V. et. al.; Towards a comparison between chip-level optical interconnection and board-level exterconnection, Conference Paper. pp. 92-94, 2002;

[39] A. M. Streltsov et. al.; Fabrication and analysis of a directional coupler written in glass by nanojoule femtosecond laser pulses, Optics Letters. pp. 42-43, 2001;

[40] M. A. Forastiere et. al.; Improved scalar analysis of integrated optical structures by the mapped Galerkin method and Arnoldi iteration, Journal of the Optical Society of America A. pp. 966-974, 2001;

[41] M. Galarza et. al.; Modeling of InGaAsP-InP 1.55 µm lasers with integrated mode expanders using fiber-matched leaky waveguides, Applied Physics: B Lasers and Optics. pp. 585-588, 2001;

[42] Timothy P. Kurzweg et. al.; Diffractive optical propagation techniques for mixed-signal CAD tools, Proceedings of SPIE. pp. 610-618, 2000;

[43] Ruano Jesus M et. al.; Flame hydrolysis deposition of glass on silicon for the integration of optical and microfluidic devices, Analytical chemistry . pp. 1093-1097, 2000;

[44] Piester, D et. al.; Laser-action in V-groove-shaped InGaAs-InP single quantum wires, IEEE Journal of Selected Topics in Quantum Electronics. pp. 522-527, 2000;

[45] Levitan, S.P. et. al.; Modeling and simulation of mixed technology micro systems, Conference Paper. pp. 14-19, 2000;

[46] Saini, S.S. et. al.; Passive active resonant coupler (PARC) platform with mode expander, IEEE Photonics Technology Letter. pp. 1025-1027, 2000;

[47] Saini, S.S. et. al.; Compact low-loss vertical resonant mode coupling between twowell-confined waveguides for monolithic integration, Lasers and Electro-Optics Society. pp. 840-841, 1999;

[48] Ruano, J.M et. al.; Lab-on-a-chip devices fabricated using flame hydrolysis deposited glass, Conference Paper. pp. 12/1-12/3, 1999;

[49] Velko Tzolov et. al.; Modeling tools for integrated and fiber optical devices, Proceedings of SPIE. pp. 162-173, 1999;

[50] Forastiere, M.A et. al.; Scalar analysis of general dielectric waveguides by Fourier decomposition method, IEEE Journal of lightwave Technology. pp. 362-368, 1999;

[51] Vusirikala, V. et. al.; 1.55-μm InGaAsP-InP laser arrays with integrated-mode expandersfabricated using a single epitaxial growth, IEEE Journal of Quantum Electronics. pp. 1332-1343, 1998;

[52] Shaari, S et. al.; Beam propagation method study of wavelength dependent in directional coupler switch, Conference Paper. pp. 223-228, 1998;

[53] Vusirikala, V. et. al.; Compact mode expanders using resonant coupling between a taperedactive region and an underlying coupling waveguide, IEEE Photonics Technology Letter. pp. 203-205, 1998;

[54] Zhao, Peizhen et. al.; Novel multimode coupler switch, Microwave and Optical Technology Letter. pp. 1-7, 1998;

[55] Brown, K.S. et. al.; Characterization of poly(phenylsilsesquioxane) thin-film planar optical waveguides, IEEE Photonics Technology Letter. pp. 791-793, 1997;

[56] Z. Jan Jakubczyk et. al.; Modeling tools in waveguide optics , Proceedings of SPIE. pp. 310-318, 1997;

[57] Moosburger, R et. al.; Shaping the digital optical switch using evolution strategies and BPM, IEEE Photonics Technology Letter. pp. 1484-1486, 1997;

[58] Klekamp, A et. al.; An improved single-mode Y-branch design for cascaded 1:2 splitters, IEEE Journal of lightwave Technology. pp. 2684-2686, 1996;

[59] Miroslaw Florjanczyk; Simulation software helps craft waveguides, Laser Focus World. , 1996;