FIMMWAVE/FIMMPROP Publications
Some of our publications related to FIMMWAVE and FIMMPROP
| Modelling of tapered waveguides with the FIMMPROP taper algorithm | T.P. Felici, D.F.G. Gallagher, "On propagation through long step tapers." Special Issue of Optical and Quantum Electronics, 2001 | |
| Record transmission achieved in photonic crystal waveguides using FIMMPROP and Kallistos | T.P. Felici, A. Lavrinenko, D.F.G. Gallagher et al., "Record transmissions achieved in photonic crystal waveguide components through novel automatic optimisation techniques," presented at the ECIO, 2003 | |
| Optical design of a InAlAs/InGaAs p-i-n photodetector | G. Torrese, I. Huynen, M. Serres, D. Gallagher, M. Banham, A. Vander Vorst, “An Analytical Bias-Dependent Non Uniform Model for p-i-n Travelling-Wave Photodetectors”, IEEE MTT, Vol XX, 2001, pp.411, 2001. | |
| Discussion on the suitability of EigenMode Expansion to simulation optical propagation | D.F.G. Gallagher, T.P. Felici, "Eigenmode Expansion Methods for Simulation of Optical Propagation in Photonics – Pros and Cons." Proc. SPIE, vol 4987, pp.69-82, 2003. | |
| Optimisation of tapers and photonic crystal structures with FIMMPROP and Kallistos | T.P. Felici, D.F.G. Gallagher, "Improved waveguide structures derived from new rapid optimization techniques." presented at the Photonics West, San Jose, 4986-48, 2003. | |
| Ring resonator modelling with FIMMPROP | E. V. Bekker, V. Brulis, D. Gallagher, "Accurate Design of Optical Microring Resonators", presented at ECIO, Cambridge, 2010. |
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A small sample of our customers' publications using results from FIMMWAVE and FIMMPROP
| Design of ultralow-loss silicon waveguide crossing using cascaded MMI couplers | Y. Zhang, A. Hosseini, X. Xu, D. Kwong and R. T. Chen, "Ultralow-loss silicon waveguide crossing using Bloch modes in index-engineered cascaded multimode-interference couplers", Optics Letters, 38, 18, pp. 3608-3611 (2013) |
| Modelling of tapered transition between silicon and ultra-low loss waveguides | J. F. Bauters, M. L. Davenport, M. J. R. Heck, J. K. Doylend, A. Chen, A. W. Fang and J. E. Bowers, "Silicon on ultra-low-loss waveguide photonic integration platform", Optics Express, 21, 1, p. 544-555 (2013) |
| Simulation of propagation and farfield pattern for a 1x3 MMI coupler | A. Hosseini, D. Kwong, Y. Zhang, A. Alu, and R. T. Chen, “Modeling and experimental observation of on-chip two-dimensional far field interference pattern,” Applied Optics, vol. 50, pp. 1822-1826, 2011 |
| Mode solving in high power broad area devices | P. Crump, S. Boldicke, C. M. Schultz, H. Ekhteraei, H. Wenzel and G. Erbert, "Experimental and theoretical analysis of the dominant lateral waveguiding mechanism in 975 nm high power broad area diode lasers", Semicond. Sci. Technol., 27, 045001 (2012) |
| Optimisation of 1x12 silicon MMI couplers | A. Hosseini, H. Subbaraman, D. Kwong, Y. Zhang, R. T. Chen, “Optimum Access Waveguide Width for 1xN Multimode Interference Couplers on Silicon Nanomembrane,” Optics Letters, vol. 35, no. 2864-2866, 2010 |
| Design of a laterally-tapered vertical coupler with FIMMPROP | M. Galarza, D. Van Thourhout, R. Baets, M. Lopez-Amo, "Compact and highly-efficient polarization independent vertical resonant couplers for active-passive monolithic integration", Optics Express, vol. 16(12), pp. 8350-8358 (2008) |
| Modelling of an silicon on insulator (SOI) RIB waveguide in a 90 degree bend | Yusheng Qian, Seunghyun Kim, Jiguo Song, Gregory P. Nordin and Jianhua Jiang, "Compact and low loss silicon-on-insulator rib waveguide 90° bend", Optics Express, 14, 13, pp. 6020-6028(2006) |
| Modelling of a silicon on insulator (SOI) waveguide | Delphine Marris, Eric Cassan, Laurent Vivien, Daniel Pascal, Alain Koster, Suzanne Laval, "Design of modulation-doped SiGe/Si optical modulator integrated in a submicrometer silicon-on-insulator waveguide", Optical Engineering, Vol.44(8), 084001, August 2005 |
| Modelling of a silicon photonic wire waveguide for wavelength conversion | K. Yamada, H. Fukuda, T. Tsuchizawa, T. Watanabe, T. Shoji, and S. Itabashi, “All-Optical Efficient Wavelength Conversion Using Silicon Photonic Wire Waveguide”, IEEE Photonics Technology Letters, Vol.18, No. 9, pp.1046-1048, May 2006 |
| Modelling of hollow core waveguides | Holger Schmidt, Dongliang Yin, John P. Barber, and Aaron R. Hawkins, “Hollow-Core Waveguides and 2-D Waveguide Arrays for Integrated Optics of Gases and Liquids”, IEEE Journal of Selected Topics in Quantum Electronics, V11, No.2, March/April 2005 |
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OmniSim/CrystalWave Publications
Some of our publications related to Omnisim and CrystalWave
| Modelling of a photonic crystal device including a Y-splitter and a 60 degree bend with our 3D FDTD Engine | M. Ayre, T.J. Karle, L. Wu, T. Davies, and T.F. Krauss, “Experimental verification of numerically optimised Photonic Crystal Injector, Y-splitter and Bend” , IEEE Journal on Selected Areas in Communications, vol. 23, pp. 1390-1395, 2005 | |
| Optimisation of high-transmission planar photonic crystal waveguides with our 3D FDTD Engine and Kallistos | T.P. Felici, A. Lavrinenko, D.F.G. Gallagher et al., "New design rules for planar photonic crystal devices obtained using automatic optimisation, leading to record efficiencies," presented at the ECOC-03, Rimini, Italy, 2003 | |
| Transmission of photonic crystal coupled resonator waveguide (PhCCRW) structure enhanced via mode matching |
Chongjun Jin, Nigel P. Johnson, Harold M. H. Chong, Aju S. Jugessur, Stephen Day Dominic Gallagher and Richard M. De La Rue, "Transmission of photonic crystal coupled resonator waveguide (PhCCRW) structure enhanced via mode matching", Optics Express 4 April 2005 V13 N7 |
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| Overview of photonic integrated circuits using crystal optics (PICCO) | T.F. Krauss, R. Wilson, R. Baets, W. Bogaerts, M. Kristensen, P.I. Borel, L.H. Frandsen, M. Thorhauge, B. Tromborg, A. Lavrinenko, R. M. De La Rue, H. Chong, L. Socci, M. Midrio, D. Gallagher, "Photonic Integrated Circuits using Crystal Optics (PICCO)", ECIO 2003, p. 113-117,(2003) | |
| Integrated wavelength monitoring in a photonic-crystal tunable laser diode | H. Hofmann, M. Kamp, A. Forchel, D. Gallagher, H. Benisty, "Integrated wavelength monitoring in a photonic-crystal tunable laser diode", Photonics and Nanostructures, Elsevier, vol. 6, pp 205-212, 2008 | |
| Modelling of a photonic crystal cavity with our 2D FDTD Engine, Littrow modes | O. Khayam, C. Cambournac, H. Benisty, M. Ayre, R. Brenot, G.-H. Duan, W. Pernice, "In-plane Littrow lasing of broad photonic crystal waveguides", Appl. Phys. Lett, vol. 91, 041111, 2007 |
PICWave Publications
Some of our publications related to PICWave
| Modelling Photonic Integrated Circuits Using TDTW | D. Gallagher, "Modelling Photonic Integrated Circuits Using TDTW", Asia Optical Fiber Communication and Optoelectronic Exposition and Conference (2008) |
| Designing Active Photonic Integrated Circuits Using TDTW | D. Gallagher, "Designing Active Photonic Integrated Circuits Using TDTW", Integrated Photonics and anophotonics Research and Applications (2008) |
| Modelling of silicon and active photonic integrated circuits | D. Gallagher, T. Felici, "Modelling of silicon and active photonic integrated circuits", Proc. SPIE 6996, Silicon Photonics and Photonic Integrated Circuits, 69961E (2008) |
A small sample of our customers' publications using results from PICWave
| Modelling of a Coherent Comb Laser | M. J R Heck, J.E. Bowers, "Integrated Fourier-Domain Mode-Locked Lasers: Analysis of a Novel Coherent Comb Laser," Selected Topics in Quantum Electronics, IEEE Journal of , vol.18, no.1, pp.201,209, Jan.-Feb. 2012 |
| Modelling Active 2R Regenerators | Geza Kurczveil, Martijn J. R. Heck, John M. Garcia, Henrik N. Poulsen, Hyundai Park, et al., "Integrated recirculating optical hybrid silicon buffers", Proc. SPIE 7943, Silicon Photonics VI, 79430U (January 17, 2011) |
| Modelling of an SOA using Harold and PICWave | A. Assadihaghi, H. Teimoori, A. Benhsaien, V. Tolstikhin, T.J. Hall, K. Hinzer, "Semiconductor optical amplifier designs for passive optical network extensions," Indium Phosphide & Related Materials, 2009. IPRM '09. IEEE International Conference on , vol., no., pp.289,291, 10-14 May 2009 |
| Integrated Spectrometer Design | S. J. Sweeney, Y. Zhang and I. D. Goodyer, "The development of a novel monolithic spectrometer chip concept", Proc. SPIE 8264, Integrated Optics: Devices, Materials, and Technologies XVI, 82640O (February 9, 2012) |
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Harold Publications
Publications about the Harold model
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Discussion on the modelling of facet heating in Harold |
B. Romero Herrero, G. Batko, J. Arias, L. Borruel, I. Esquivias and R. Gomez-Alcala, "Modeling of facet heating in high-power laser diodes", Proceedings of SPIE, 3889, pp. 96-106 (2000) |
A small sample of our customers' publications using results from Harold
| Modelling of an SOA using Harold and PICWave | A. Assadihaghi, H. Teimoori, A. Benhsaien, V. Tolstikhin, T.J. Hall, K. Hinzer, "Semiconductor optical amplifier designs for passive optical network extensions", Indium Phosphide & Related Materials, pp. 289-291 (2009) |
| Modelling of laser diodes using Harold | A. Salhi, A.A. Al-Muhanna, "Self-Consistent Analysis of Quantum Well Number Effects on the Performance of 2.3um GaSb-Based Quantum Well Laser Diodes", Selected Topics in Quantum Electronics, 15, 3, pp. 918-924 |
| Modelling of facet heating and COD effects in high power diode laser using Harold | S. P. Najda, G. Bacchin, B. Qiu, X. Liu, O. P. Kowalski, et al., "Benefits of quantum well intermixing in high power diode lasers", Proc. SPIE 5365, Novel In-Plane Semiconductor Lasers III, 1 (2004) |
| Modelling of laser diodes using Harold | A. Al-Muhanna, A. Alharbi and A. Salhi, "Waveguide Design Optimization for Long Wavelength Semiconductor Lasers with Low Threshold Current and Small Beam Divergence," Journal of Modern Physics, Vol. 2 No. 4, 2011, pp. 225-230 |
