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referencesOptiFDTD Publication References
Below is a listing of scientific papers, technical journals, periodicals, and conference publications which reference the use of OptiFDTD.
2009
[ 1 ] Al-Aakhir A. Rogers, Scott Samson, and Sunny Kedia; Far-field evanescent wave propagation using coupled subwavelength gratings for a MEMS sensor. JOSA A, Vol. 26, Issue 12, pp. 2526-2531.
[ 2 ] DeGui Sun, Xiaoqi Li, Dongxia Wong, Yuan Hu, Fangliang Luo, and Trevor J. Hall; Modeling and Numerical Analysis for Silicon-on-Insulator Rib Waveguide Corners. Journal of Lightwave Technology, Vol. 27, Issue 20, pp. 4610-4618.
[ 3 ] Sinjeung Park and Jae Won Hahn; Plasmonic data storage medium with metallic nano-aperture array embedded in dielectric material. Optics Express, Vol. 17, Issue 22, pp. 20203-20210
[ 4 ] Ahmad Reza Hajiaboli*, 1, Bo Cui2, M. Kahrizi1, and Vo-Van Truong; Optical properties of thick metal nanohole arrays fabricated by electron-beam and nanosphere lithography. Phys. Status Solidi A, 206, No. 5 (2009), pp.976-979.
[ 5 ] Chee Leong Tan, Volodymyr V. Lysak, Kamal Alameh and Yong Tak Lee; Absorption enhancement of 980 nm MSM photodetector with a plasmonic grating structure. Optics Communications, December 2009.
[ 6 ] Frederik Sulser, Gorazd Poberaj, Manuel Koechlin, and Peter Günter; Photonic crystal structures in ion-sliced lithium niobate thin films. Optics Express, Vol. 17, Issue 22, pp. 20291-20300
[ 7 ] Timothy Kehoe, Vincent Reboud and Clivia Sotomayor Torres; Inline metrology configuration for sub-wavelength diffraction using microscope optics. Microelectronic Engineering. Volume 86, Issues 4-6, April-June 2009, Pages 1036-1039.
[ 8 ] P. Prabhathan, V. M. Murukeshan, Zhang Jing, and Pamidighantam V. Ramana; Compact SOI nanowire refractive index sensor using phase shifted Bragg grating, Optics Express, Vol. 17, Issue 17, pp. 15330-15341.
[ 9 ] P. Prabhathan, V. M. Murukeshan, Zhang Jing, and Pamidighantam V. Ramana; Broadband tunable bandpass filters using phase shifted vertical side wall grating in a submicrometer silicon-on-insulator waveguide. Applied Optics, Vol. 48, Issue 29, pp. 5598-5603.
[ 10 ] Ofer Margalit, Vassilios Sarafis, and Zeev Zalevsk; The effect of grana and inter-grana components of chloroplasts on green light transmission: A preliminary study. International Journal for Light and Electron Optics, In Press, Corrected Proof, Available online 28 July 2009.
[ 11 ] W. Ding, R. Bachelot, R. Espiau de Lamaestre, D. Macias, A.-L. Baudrion, and P. Royer; Understanding near/far-field engineering of optical dimer antennas through geometry modification. Optics Express, Vol. 17, Issue 23, pp. 21228-21239.
[ 12 ] Mohd Hanapiah M. Yusoffa, b, , , H. Abu Hassana, M.R. Hashima and M.K. Abd-Rahman; Analysis of multiple reflections in hybrid photonic crystal multimode interference coupler. Optics Communications. Volume 282, Issue 20, 15 October 2009, Pages 4063-4071.
[ 13 ] Aaron F. Matthews; Experimental demonstration of self-collimation beaming and splitting in photonic crystals at microwave frequencies. Optics Communications, Volume 282, Issue 9, 1 May 2009, Pages 1789-1792.
[ 14 ] Rahul Dewan, Marko Marinkovic, Rodrigo Noriega, Sujay Phadke, Alberto Salleo, and Dietmar Knipp, Light trapping in thin-film silicon solar cells with submicron surface texture. Optics Express, Vol. 17, Issue 25, pp. 23058-23065.
[ 15 ] Junji Ohara, Yukihiro Takeuchi and Kazuo Sato; Improvement of the optical transmittance of a micro prism made from a Si substrate by DRIE, oxidation and SiO2 film refilling J. Micromech. Microeng. 19 No 5 (May 2009) 055019 (8pp)
S. Pissadakis, M. Livitziis and G. D. Tsibidis. “Investigations on the Bragg grating recording in all-silica, standard and microstructured optical fibers using 248 nm, 5 ps laser radiation”. Journal of the European optical Society, RP. 4, 2009, 09049 (1-6)
[ 16 ] Ad. Aalim Khan, et. Al. “Simulation Of metallic and Metallic Dielectric Photonic Structure using the OptiFDTD software”, ICPO 2009, International Cofenrence on Optics and Photonics, India,
[ 17 ] Stuart, Elston, “Finite-Difference Time Domain Simulations of metallic Nanoparticles in Whispering Gallery Mode Resonators” , Thesis, Brown Univeristy, May8, 2009
2008
[ 1 ] Erdal Bulgan, Yoshiaki Kanamori and Kazuhiro Hane; Theoretical Analysis of Mechanical-Contact-Based Submicron-Si-Waveguide Optical Microswitch at Telecommunication Wavelengths. IEEJ Transactions on Sensors and Micromachines, Vol. 128 (2008) , No. 3 pp.80-84.
[ 2 ] Xingzhan Wei, Chunlei Du, Xiaochun Dong, Xiangang Luo, Qiling Deng, and Yudong Zhang; Nanofabrication with controllable localization energy based on the interference modulation of surface plasmons. Optics Express, Vol. 16, Issue 19, pp. 14404-14410
[ 3 ] P. Kogan, B. Apter, I. Baal-Zedaka and U. Efron; Resolution improvement of surface plasmon-enhanced, liquid crystal spatial light modulator: Simulation studies. Optics Communications,Volume 281, Issue 18, 15 September 2008, Pages 4788-4792
[ 4 ] Anna L. Pyayt, et.al, “A High-Efficiency display based on a telescopic pixel design”, Nature Photonics, 2, pp 492-495.
[ 5 ] K. J. Yi, Z. Y. Yang, and Y. F. Lu; Fabrication of nanostructures with high electrical conductivity on silicon surfaces using a laser-assisted scanning tunneling microscope. J. Applied Physics. 103, 054307 (2008)
[ 6 ] C. Kusko; Electromagnetic Response of a Structured Drude Material; A Numerical Study, Semiconductor Conference, 2008, pp.67-70
[ 7 ] Marie Lesecq, Sophie Maricot, Jean-Pierre Vilcot, and Maxime Beaugeois; Wide electrical tunability of a GaInAsP/InP microdisk resonator. Optics Letters, Vol. 33, Issue 13, pp. 1467-1469
[ 8 ] Eungman Lee and Jae Won Hahn; Modeling of three-dimensional photoresist profiles exposed by localized fields of high-transmission nano-apertures. Nanotechnology, Vol 19, 275303.
[ 9 ] Yeo-Taek Yoon, Hong-Shik Lee, Sang-Shin Lee, Sang Hoon Kim, Joo-Do Park, and Ki-Dong Lee, "Color filter incorporating a subwavelength patterned grating in poly silicon," Vol. 16, Issue 4, pp. 2374-2380
[ 10 ] D.W. Kim , Y.C. Kim, Om. Suwal, V. Jha, M.J. Park and S.S. Choi; Optimization of light-surface plasmon coupling by periodicity regulation for a pyramidal probe. Materials Science and Engineering: B; Volume 149, Issue 3, 15 April 2008, Pages 242-246
[ 11 ] Chia-Jean Wang, Babak A Parviz and Lih Y Lin; Two-dimensional array self-assembled quantum dot sub-diffraction waveguides with low loss and low crosstalk. 2008 Nanotechnology 19, 295201 (10pp)
[ 12 ] G. Subramania, Y.J. Lee, B.A. Hernandez-Sanchez, A.J. Fischer, T.S. Luk, I. Brener, P.G. Clem and T.J. Boyle; CdSe infiltrated TiO2 based omnidirectional photonic crystals for visible light control. Photonics and Nanostructures - Fundamentals and Applications, Volume 6, Issue 1, April 2008, Pages 12-18
[ 13 ] Chen Cheng, Jing Chen, Da-Jian Shi, Qi-Yang Wu, Fang-Fang Ren, Ji Xu, Ya-Xian Fan, Jianping Ding, and Hui-Tian Wang; Physical mechanism of extraordinary electromagnetic transmission in dual-metallic grating structures. Phys. Rev. B 78, 075406 (2008)
[ 14 ] Christian C. Fesenmaier, Yijie Huo, and Peter B. Catrysse; Optical confinement methods for continued scaling of CMOS image sensor pixels. Optics Express, Vol. 16, Issue 25, pp. 20457-20470
[ 15 ] V. Reboud. et. al. Fabrication of Defect-Free Nanoimprinted Photonic Crystals for Laser Applications. Jpn. J. Applied Physics. 47 (2008) pp. 5139-5141
[ 16 ] Mathew J. Dicken, et. al. “Electrooptic Modulation in Thin film Barium Titanate Plasmonic interferometers” Nano-Letters, Vol.8, No.11, pp. 4048-4052
[ 17 ] Kaijun Yi; Nano-Raman Spectroscopy and Surface Nanostructuring Using Near-Field Optics. A Doctoral Degree Dissertation, University of Nebraska – Lincoln
[ 18 ] Supriya Sridhar; Design, Simulation and Physical Characterization of Three dimensional photonic woodpile structures for high efficacy incandescent thermal emission. A Master Degree Dissertation, University of Cincinnati.
[ 19 ] Joseph R. Lakowicz, Krishanu Ray, Mustafa Chowdhury, Henryk Szmacinski, Yi Fu, Jian Zhang, and Kazimierz Nowaczyk; Plasmon-controlled fluorescence: a new paradigm in fluorescence spectroscopy. Analyst, 2008, 133, 1308 - 1346
[ 20 ] Erdal Bulgan et. al.; Theoretical Analysis of Mechanical-Contact-Based Submicron-Si-Waveguide Optical Microswitch at Telecommunication Wavelengths. 128 pp.80-84, 2008.
[ 21 ] P. Kogan et. al.; Resolution improvement of surface plasmon-enhanced, liquid crystal spatial light modulator: Simulation studies. 281 pp. 4788-4792, 2008.
[ 22 ] Chia-Jean Wang et al; Two-dimensional array self-assembled quantum dot sub-diffraction waveguides with low loss and low crosstalk. 2008.
[ 23 ] A. Mathews et. al.; Tunable Goos–Hänchen shift for self-collimated beams in two-dimensional photonic crystals. Vol. 372, Iss. 3 pp. 333-339, 2008.
2007
[ 1 ] Loucas Tsakalakos, et. Al. “Strong brtoadband optical absorption in Silicon nanowire films”, Journal of Nanophotonics, Vol. 1, 013553, (10 pages)
[ 2 ] Xingzhan Wei, Xiangang Luo, Xiaochun Dong, and Chunlei Du; Localized surface plasmon nanolithography with ultrahigh resolution. Optics Express, Vol. 15, Issue 21, pp. 14177-14183
[ 3 ] Tzong-Yow Tsai, Yen-Cheng Fang, Zhi-Cheng Lee and Jong-Rong Chen; Design and simulation of apodized wavelength filters using Gaussian-distributed sidewall grating. Optical and Quantum Electronics, Volume 39, Number 7 / May, 2007, pp571-575
[ 4 ] Przemek J. Bock, Pavel Cheben, Dan-Xia Xu, Siegfried Janz, and Trevor J. Hall; Mirror cavity MMI coupled photonic wire resonator in SOI. Optics Express, Vol. 15, Issue 21, pp. 13907-13912.
[ 5 ] J. H. Schmid, P. Cheben, S. Janz, J. Lapointe, E. Post, and D.-X. Xu; Gradient-index antireflective subwavelength structures for planar waveguide facets. Optics Letters, Vol. 32, Issue 13, pp. 1794-1796,
[ 6 ] Hong-Sik Lee, Yeo-Taek Yoon, Sang-shin Lee, Sang-Hoon Kim, and Ki-Dong Lee; Color filter based on a subwavelength patterned metal grating. Optics Express, Vol. 15, Issue 23, pp. 15457-15463.
[ 7 ] Dan A. Yanson, Mark Silver, Omar Vassalli, Margaret Campbell, Graeme Masterton, Stewart D. McDougall, and John H. Marsh; Development and fabrication of monolithically integrated optical packet switches. Journal of Optical Networking, Vol. 6, Issue 2, pp. 157-165
[ 8 ] Junbo Feng and Zhiping Zhou;Polarization beam splitter using a binary blazed grating coupler, Optics Letters, Vol. 32, Issue 12, pp. 1662-1664
[ 9 ] Chen Cheng, Jing Chen, Qi-Yang Wu, Fang-Fang Ren, Ji Xu, Ya-Xian Fan, and Hui-Tian Wang; Controllable electromagnetic transmission based on dual-metallic grating structures composed of subwavelength slits. Applied Physics, Lett. 91, 111111 (2007)
[ 10 ] Mariko Ishida, Yuichiro Ikuma, Takanori Suzuki, and Hiroyuki Tsuda; 180-Degree-Bend Structures Using Light Reflection at Double Elliptic Mirror in Slab Waveguide. Jpn. J. Applied Physics, 46 (2007) pp. 168-174
[ 11 ] Hidenobu Hamada;Theoretical time-domain study of self-imaging properties in a multimode interference coupler; Applied Optics, Vol. 46, Issue 18, pp. 3843-3849
[ 12 ] Vittorio M. N. Passaro, Francesco Dell’Olio and Francesco De Leonardis; Ammonia Optical Sensing by Microring Resonators, Sensors 2007, Vol. 7, 2741-2749
[ 13 ] Tetsuo Kan, Kiyoshi Matsumoto, and Isao Shimoyama; Piezoresistor-equipped fluorescence-based cantilever probe for near-field scanning. Rev. Sci. Instrum. 78, 083106 (2007)
[ 14 ] Francesco De Leonardis and Vittorio M N Passaro; Modelling of Raman amplification in silicon-on-insulator optical microcavities. New J. Phys. Vol. 9 (25)
[ 15 ] Meng-chu Tseng, The Imaging of an Optical System with a Negative Refraction Photonic Crystals and a Solid Immersion Lens. Master's Thesis, Taiwan Chenggong university
[ 16 ] Tetsuo Kan et. al.; Piezoresistor-equipped fluorescence-based cantilever probe for near-field scanning. 78 , 2007.
[ 17 ] K.J. Yi, et. al.; Enhanced Raman scattering by self-assembled silica spherical microparticles. 101 , 2007.
[ 18 ] D.W. Kim et. al.; Optimization of light-surface plasmon coupling by periodicity regulation for a pyramidal probe. 2007.
2001-2006
[ 1 ] Cheben, P. et. al.; A broad-band waveguide grating coupler with a subwavelength grating mirror. 18 pp. 13-15, 2006.
[ 2 ] P. Cheben et. al.; Subwavelength waveguide grating for mode conversion and light coupling in integrated optics. 14 pp. 4695-4702, 2006.
[ 3 ] Eric J. Kelmelis et. al.; Field-programmable gate array accelerates FDTD calculations. pp. 57-58, 2006.
[ 4 ] Cheben, P. et. al.; A broad-band waveguide grating coupler with a subwavelength grating mirror. 18 pp. 13-15, 2006.
[ 5 ] P. Cheben et. al.; Subwavelength waveguide grating for mode conversion and light coupling in integrated optics. 14 pp. 4695-4702, 2006.
[ 6 ] Eric J. Kelmelis et. al.; Field-programmable gate array accelerates FDTD calculations. pp. 57-58, 2006.
[ 7 ] Steven Dods et. al.; Advanced photonic circuit simulation. 5956 , 2005.
[ 8 ] Tzong-Yow Tsai et. al.; A novel ultracompact two-mode-interference wavelength division multiplexer for 1.5-/spl mu/m operation. 41 pp. 741-756, 2005.
[ 9 ] Paturi, Naveen et. al.; Analysis of cluster defects in photonic crystals for biosensor applications. 6005 pp. 146-151, 2005.
[ 10 ] Vittorio Passaro et. al.; Investigation of thermo-optic effect and multi-reflector tunable filter/multiplexer in SOI waveguides. 13 pp. 3429-3437, 2005.
[ 11 ] Steven Dods et. al.; Advanced photonic circuit simulation. 5956 , 2005.
[ 12 ] Tzong-Yow Tsai et. al.; A novel ultracompact two-mode-interference wavelength division multiplexer for 1.5-/spl mu/m operation. 41 pp. 741-756, 2005.
[ 13 ] Paturi, Naveen et. al.; Analysis of cluster defects in photonic crystals for biosensor applications. 6005 pp. 146-151, 2005.
[ 14 ] Vittorio Passaro et. al.; Investigation of thermo-optic effect and multi-reflector tunable filter/multiplexer in SOI waveguides. 13 pp. 3429-3437, 2005.
[ 15 ] Esinenco, D et. al.; SU-8 Micro-Biosensor Based on Mach-Zehnder Interferometer. 10 pp. 295-299, 2005.
[ 16 ] Michal Bordovsky et. al.; Waveguide design, modeling, and optimization: from photonic nanodevices to integrated photonic circuits. 5355 pp. 65-80, 2004.
[ 17 ] Tzong-Yow Tsai et. al.; A novel wavelength-division multiplexer using grating-assisted two-mode interference. 16 pp. 2251-2253, 2004.
[ 18 ] Jiazong Zhang et. al.; Calculating the coupling efficiency between single-mode fiber to photonic crystal fiber using the FDTD method. 5579 pp. 443-447, 2004.
[ 19 ] Peter Catrysse et. al.; One-mode model for patterned metal layers inside integrated color pixels. 29 pp. 974-976, 2004.
[ 20 ] Stoyan Tanev et. al.; The FDTD approach applied to light scattering from single biological cells. 5474 pp. 162-168, 2004.
[ 21 ] Stoyan Tanev et. al.; Simulation tools solve light-scattering problems from biological cells. 2004.
[ 22 ] Michal Bordovsky et. al.; Waveguide design, modeling, and optimization: from photonic nanodevices to integrated photonic circuits. 5355 pp. 65-80, 2004.
[ 23 ] Tzong-Yow Tsai et. al.; A novel wavelength-division multiplexer using grating-assisted two-mode interference. 16 pp. 2251-2253, 2004.
[ 24 ] Jiazong Zhang et. al.; Calculating the coupling efficiency between single-mode fiber to photonic crystal fiber using the FDTD method. 5579 pp. 443-447, 2004.
[ 25 ] Peter Catrysse et. al.; One-mode model for patterned metal layers inside integrated color pixels. 29 pp. 974-976, 2004.
[ 26 ] Stoyan Tanev et. al.; The FDTD approach applied to light scattering from single biological cells. 5474 pp. 162-168, 2004.
[ 27 ] Stoyan Tanev et. al.; Simulation tools solve light-scattering problems from biological cells. 2004.
[ 28 ] Richard Zhang et. al.; Finite-difference time-domain method guides optical design of metallic nanostructures. pp. 67-71, 2004.
[ 29 ] Richard Zhang et. al.; Finite-difference time-domain method guides optical design of metallic nanostructures. pp. 67-71, 2004.
[ 30 ] Aubuchon, M.S et. al.; Efficient, high power laser to multi-fiber coupler for triggering optically activated switches. 2 pp. 1186-1189, 2003.
[ 31 ] Aubuchon, M.S et. al.; Efficient, high power laser to multi-fiber coupler for triggering optically activated switches. 2 pp. 1186-1189, 2003.
[ 32 ] Jiazong Zhang ; Analyzing dispersive nonlinear optical devices by using FDTD method. 4833 pp. 753-761, 2003.
[ 33 ] Peter B. Catrysse et. al.; Integrated color pixels in 0.18-µm complementary metal oxide semiconductor technology. 20 pp. 2293-2306, 2003.
[ 34 ] Allen J. Whang et. al.; Multimode Interference All-Optical Logic Gates via Partially Nonlinear Propagation Region. 10 pp. 346-351, 2003.
[ 35 ] Jiazong Zhang ; Analyzing dispersive nonlinear optical devices by using FDTD method. 4833 pp. 753-761, 2003.
[ 36 ] Peter B. Catrysse et. al.; Integrated color pixels in 0.18-µm complementary metal oxide semiconductor technology. 20 pp. 2293-2306, 2003.
[ 37 ] Allen J. Whang et. al.; Multimode Interference All-Optical Logic Gates via Partially Nonlinear Propagation Region. 10 pp. 346-351, 2003.
[ 38 ] Szpulak, M. et. al.; Influence of temperature on birefringence and polarization mode dispersion in photonic crystal holey fibers. 2 pp. 89-92, 2002.
[ 39 ] Taflove, A; Prospects for Finite-Difference Time-Domain (FDTD) Computational Electrodynamics. 2002.
[ 40 ] Szpulak, M. et. al.; Influence of temperature on birefringence and polarization mode dispersion in photonic crystal holey fibers. 2 pp. 89-92, 2002.
[ 41 ] Taflove, A; Prospects for Finite-Difference Time-Domain (FDTD) Computational Electrodynamics. 2002.
[ 42 ] Pierre Berini et. al.; Advances in the development of simulation tools for integrated optics devices: FDTD, BPM, and mode-solving techniques.
4277 pp. 1-20, 2001.
[ 43 ] Pierre Berini et. al.; Advances in the development of simulation tools for integrated optics devices: FDTD, BPM, and mode-solving techniques. 4277 pp. 1-20, 2001.
