OptiFDTD Publication References – 2019

Compatibility:

The following is a list of scientific papers, technical journals, periodicals, and conference publications which reference the use of OptiFDTD.  These references were collected from internal sources, customer submitted papers, and scientific articles via Google Scholar – and to the best of our knowledge, make use of our OptiFDTD software package. If you locate any mistakes, please notify us immediately by contacting info@optiwave.com.

 

[1]
Palaz, Selami, et al. “Photonic band gap of multiferroic-dielectric materials in the IR region: FDTD method.” Ferroelectrics 539.1 (2019): 50-54.

 

[2]
Islam, Alif, et al. “Modeling and Analysis of Different Nano-gratings to Enhance Light Absorption in MSM-PDs.” 2019 International Conference on Robotics, Electrical and Signal Processing Techniques (ICREST). IEEE, 2019.

 

[3]
Kumar, Trimesh, and Om Prakash Sharma. “Simulation and Analysis of Photonic Crystal Fiber Using Thirty-Seven Modified Multicore Rings to Reduce Dispersion.” Available at SSRN 3357743 (2019).

 

[4]
Gumelar, Muhammad Raditya, and Retno Wigajatri Purnamaningsih. “The Effects of Ring Radius and Coupling Gap on the Transmission Spectrum of GaN-Based Ring Resonator.” 2019 16th International Conference on Quality in Research (QIR): International Symposium on Electrical and Computer Engineering. IEEE, 2019.

 

[5]
Kaur, Harsimranjit, and Savita Kashyap. “Light absorption enhancement of plasmonic based photo-detector with double nanograting structure.” Optik (2019): 163869.

 

[6]
Feng, Jie, and Mattheos Santamouris. “Numerical techniques for electromagnetic simulation of daytime radiative cooling: A review.” AIMS Materials Science 6.6 (2019): 1049.

 

[7]
Kaur, Harsimranjit. “Impact of silver nanogratings for enhanced light absorption in plasmonic based photodetector.” Optik 199 (2019): 163367.

 

[8]
Rani, Sumita, and Sanjeev Dewra. “Impact of various parameters on the performance of optical directional coupler.” Journal of Optical Communications 40.3 (2019): 181-185.

 

[9]
Tunsiri, Surachai, et al. “Microring Switching Control Using Plasmonic Ring Resonator Circuits for Super-Channel Use.” Plasmonics (2019): 1-9.

 

[10]
Shekar, N. Chandra, et al. “Detection of Melanoma Cancer Cell by Designing a SPR Based Biosensor.” Journal of Physics: Conference Series. Vol. 1362. No. 1. IOP Publishing, 2019.

 

[11]
Kumar, Trimesh, and Om Prakash Sharma. “Analysis and Simulation of Multi Core Modified PCF with Uniformly Polarization High Birefringent and Low Confinement Loss.” Available at SSRN 3446599 (2019).

 

[12]
Purwaha, Neha, et al. “Broadband SOI grating coupler based on sub-wavelength gratings with low back reflection for fiber-to-chip coupling of DWDM signals.” Integrated Optics: Devices, Materials, and Technologies XXIII. Vol. 10921. International Society for Optics and Photonics, 2019.

 

[13]
Vázquez, JA Medina, et al. “Blue shift effect on the reflectance in two-dimensional Si-ZnO photonic structure with patterned coupled optical micro-cavities.” Journal of Physics: Conference Series. Vol. 1221. No. 1. IOP Publishing, 2019.

 

[14]
Vyas, Ajay Kumar. “Elliptical air holes based photonic crystal fiber for narrow band gap and peak power at 1.55 micrometre wavelength.” Optik 184 (2019): 28-34.

 

[15]
Kaur, Gurpreet. Performance Evaluation of Fiber Optical Sensors for Health Monitoring of Civil Structures. Diss. 2019.

 

[16]
Kim, Daehyung, et al. “DNA skybridge: 3D structure producing a light sheet for high-throughput single-molecule imaging.” Nucleic acids research 47.18 (2019): e107-e107.

 

[17]
Alonso-Orts, Manuel, et al. “Exciting and confining light in Cr doped gallium oxide.” Oxide-based Materials and Devices X. Vol. 10919. International Society for Optics and Photonics, 2019.

 

[18]
Zegadi, Rami, Lahcène Ziet, and Ameur Zegadi. “Design of High Sensitive Temperature Sensor Based on Two-Dimensional Photonic Crystal.” Silicon (2019): 1-7.

 

[19]
Prabu, K., and Dhanashree Nasre. “Design and Analysis of a Novel Optical Circulator Based on Photonic Crystal for Photonic Integrated Circuit Applications.” Plasmonics 14.5 (2019): 1261-1267.

 

[20]
Islam, Alif, Narottam Das, and Mohammad Mohiuddin Uzzal. “A Comprehensive Study on the Impact of Various Nano-gratings on MSM-PDs for Enhancement in the Light Absorption.” AIUB Journal of Science and Engineering (AJSE) 18.1 (2019): 27-34.

 

[21]
Kameya, Yuki, and Hiroki Yabe. “Optical and Superhydrophilic Characteristics of TiO2 Coating with Subwavelength Surface Structure Consisting of Spherical Nanoparticle Aggregates.” Coatings 9.9 (2019): 547.

 

[22]
Lourenço, Paulo, Alessandro Fantoni, and Manuela Vieira. “Simulation of an Early Warning Fire System.” Doctoral Conference on Computing, Electrical and Industrial Systems. Springer, Cham, 2019.

 

[23]
Kashyap, Savita, and Harsimranjit Kaur. “Comparative Study of Plasmonics Based Metal-Semiconductor-Metal Photodetector.” 2019 6th International Conference on Signal Processing and Integrated Networks (SPIN). IEEE, 2019.

 

[24]
Zhang, Ze, et al. “Design and Optimization of Surface Plasmon Resonance Sensor Based on Polymer-Tipped Optical Fiber.” Journal of Lightwave Technology 37.11 (2019): 2820-2827.

 

[25]
Hossain, Md Biplob, et al. “High performance refractive index SPR sensor modeling employing graphene tri sheets.” Results in Physics 15 (2019): 102719.

 

[26]
Pélisset, Ségolène, and Matthieu Roussey. “Strip-loaded nano-photonics on horizontal slot waveguide.” Journal of the European Optical Society-Rapid Publications 15.1 (2019): 6.

 

[27]
Pélisset, Ségolène, and Matthieu Roussey. “Strip-loaded nano-photonics on horizontal slot waveguide.” Journal of the European Optical Society-Rapid Publications 15.1 (2019): 6.

 

[28]
Pélisset, Ségolène, and Matthieu Roussey. “Strip-loaded nano-photonics on horizontal slot waveguide.” Journal of the European Optical Society-Rapid Publications 15.1 (2019): 6.

 

[29]
Heldt, Georg, et al. “Integration of plasmonic nanostructures for micro-opto-electromechanical-systems.” Smart Systems Integration; 13th International Conference and Exhibition on Integration Issues of Miniaturized Systems. VDE, 2019.

 

[30]
Wu, Zhefeng, et al. “Generation of an arbitrary order Bessel beam in FDTD for time domain calculation.” 14th National Conference on Laser Technology and Optoelectronics (LTO 2019). Vol. 11170. International Society for Optics and Photonics, 2019.

 

[31]
Samanta, Swagata, Pallab Banerji, and Pranabendu Ganguly. “Conclusions and Future Scope of Work.” Photonic Waveguide Components on Silicon Substrate. Springer, Singapore, 2020. 97-100.

 

[32]
Elgamri, Abdelghafor, and Banmali S. Rawat. “Photonic Crystal Fiber (PCF) Raman Amplifier.” Advances in Signal Processing and Communication. Springer, Singapore, 2019. 3-13.

 

[33]
Shtykov, N. M., et al. “Amplification of the Fluorescence Propagating in the Waveguide Regime in a Planar Layer of NLC.” Crystallography Reports 64.2 (2019): 305-310.

 

[34]
Struk, Przemysław. “Design of an integrated optics sensor structure for hemoglobin property detection.” 14th Conference on Integrated Optics: Sensors, Sensing Structures, and Methods. Vol. 11204. International Society for Optics and Photonics, 2019.

 

[35]

Zhang, Juan, et al. “Compact photonic crystal multichannel drop filter for CWDM systems.” Photonics and Nanostructures-Fundamentals and Applications 37 (2019): 100732.

[36]
Moradi, Mohammad, et al. “Unconditionally stable FDTD algorithm for 3-D electromagnetic simulation of nonlinear media.” Optics express 27.10 (2019): 15018-15031.

 

[37]
Xie, Dajie, et al. “Broadband omnidirectional light reflection and radiative heat dissipation in white beetles Goliathus goliatus.” Soft matter 15.21 (2019): 4294-4300.

 

[38]
Samanta, Swagata, Pallab Banerji, and Pranabendu Ganguly. “Design and Development of Polarization-Independent Power Splitter Using Coupled Silicon Waveguides.” Photonic Waveguide Components on Silicon Substrate. Springer, Singapore, 2020. 81-96.

 

[39]
Zafar, Rukhsar, et al. “Metallic Slit–Loaded Ring Resonator–Based Plasmonic Demultiplexer with Large Crosstalk.” Plasmonics 14.4 (2019): 1013-1017.

 

[40]
Husna, Nikmatul, Nina Siti Aminah, and Rahmat Hidayat. “Fabrications of Tapered Optical Fibers by Laser Induced Photopolymerization Technique.” Journal of Physics: Conference Series. Vol. 1127. No. 1. IOP Publishing, 2019.

 

[41]
Shi, Feng, et al. “Improvement of surface laser damage resistance of KDP crystal under combined machining process.” Optical Engineering 57.12 (2019): 121911.

 

[42]
Mollaei, Yaghoub. “Design and Simulation of Nano-plasmonic Filter based on Nonlinear Nanocavity.” (2019).

 

[43]
Monfared, Yashar Esfahani. “Refractive Index Sensor Based on Surface Plasmon Resonance Excitation in a D-Shaped Photonic Crystal Fiber Coated by Titanium Nitride.” Plasmonics (2019): 1-8.

 

[44]

Murillo, J. G., et al. “Angular dependence of the optical reflectance in two-dimensional Si-ZnO photonic crystals.” Journal of Physics: Conference Series. Vol. 1221. No. 1. IOP Publishing, 2019.

[45]

Chatterjee, Binshati, and Sanjoy Mandal. “Z-domain modeling approach of a multilayer sextuple-coupled micro-ring resonator with 1× 5 input–output bus waveguides as optical filters.” Applied optics 58.28 (2019): 7868-7877.

[46]
Xia, Zhangcong, et al. “Study of Surface Plasmon Resonance Sensor Based on Polymer-tripped Optical Fiber with Barium Titanate layer.” Journal of Lightwave Technology (2019).

 

[47]
Sharma, Ravindra Kumar, et al. “Design and Analysis of Elliptical Core Spiral Silica Photonic Crystal Fiber with Improved Optical Characteristics.” ICCCE 2019. Springer, Singapore, 2020. 71-78.

 

[48]
Hasan, Rabita, et al. “Design and analysis of intense light beam by microlens engraved optical fiber.” Optical Engineering 58.2 (2019): 027114.

 

[49]
Monfared, Yashar E., et al. “Selectively toluene-filled photonic crystal fiber Sagnac interferometer with high sensitivity for temperature sensing applications.” Results in Physics 13 (2019): 102297.

 

[50]
Singh, Ajaypreet, et al. “Design of optimized all-optical NAND gate using metal-insulator-metal waveguide.” Optik 182 (2019): 524-528.

 

[51]
Samanta, Swagata, Pallab Banerji, and Pranabendu Ganguly. “Design and Development of Some SU-8 Wire Waveguide Structures.” Photonic Waveguide Components on Silicon Substrate. Springer, Singapore, 2020. 53-79.

 

[52]
Monfared, Yashar E., and Sergey A. Ponomarenko. “Extremely nonlinear carbon-disulfide-filled photonic crystal fiber with controllable dispersion.” Optical Materials 88 (2019): 406-411.

 

[53]
Lia, Hongqiang, et al. “Effect of polarization sensitivity on ultrasmall SOI-based AWG for FBG sensor interrogation.” (2019).

 

[54]
Struk, Przemysław. “Design of an Integrated Optics Sensor Structure Based on Diamond Waveguide for Hemoglobin Property Detection.” Materials 12.1 (2019): 175.

 

[55]
Kumari, Anu, et al. “All-optical binary to gray code converter using non-linear material based MIM waveguide.” Optik 200 (2020): 163449.

 

[56]
Kumar, Pranaw, Vikash Kumar, and Jibendu Sekhar Roy. “Design of quad core photonic crystal fibers with flattened zero dispersion.” AEU-International Journal of Electronics and Communications 98 (2019): 265-272.

 

[57]
Bendemagh, Khalissa. Etude de dimensionnement d’un coupleur à base de cristaux photoniques destiné aux systèmes de communications. Diss. 2019.

 

[58]
Purwaha, Neha, Ahmad Atieh, and N. Ye Winnie. “Broadband and polarization flexible SOI grating coupler based on sub-wavelength gratings with low back reflections.” OSA Continuum 2.4 (2019): 1350-1357.

 

[59]
Jaffal, Ali, et al. “InAs quantum dot in a needlelike tapered InP nanowire: a telecom band single photon source monolithically grown on silicon.” arXiv preprint arXiv:1906.11708 (2019).

 

[60]
Winskas, John T., et al. “Different Regimes of Opto-fluidics for Biological Manipulation.” Micromachines 10.12 (2019): 802.

 

[61]
Shtykov, Nikolai Mikhailovich, et al. “Fluorescence and lasing in an electric-field-induced periodic structure of a cholesteric liquid crystal.” Quantum Electronics 49.8 (2019): 754.

 

[62]
Proust, Julien, et al. “Detecting a Zeptogram of Pyridine with a Hybrid Plasmonic–Photonic Nanosensor.” ACS sensors 4.3 (2019): 586-594.

 

[63]
Nikzad, Mohammad Javad, et al. “Fabrication of a Highly Flexible and Affordable Transparent Electrode By Aligned U-Shaped Copper Nanowires Using a New Electrospinning Collector with Convenient Transferability.” ACS omega (2019).

 

[64]
Lei, Po-Hsun, et al. “Enhancement of Light Extraction Efficiency for InGaN/GaN Light-Emitting Diodes Using Silver Nanoparticle Embedded ZnO Thin Films.” Micromachines 10.4 (2019): 239.

 

[65]
Tang, Yuankai, et al. “Applications of Hybrid Nanoparticles in Biosensors: Simulation Studies.” Noble Metal-Metal Oxide Hybrid Nanoparticles. Woodhead Publishing, 2019. 431-455.

 

[66]
Gabr, Ahmed M., et al. “Design and optimization of optical passive elements using artificial neural networks.” JOSA B 36.4 (2019): 999-1007.

 

[67]
Carnio, B. N., and A. Y. Elezzabi. “An Extensive Finite-Difference Time-Domain Formalism for Second-Order Nonlinearities Based on the Faust-Henry Dispersion Model: Application to Terahertz Generation.” Journal of Infrared, Millimeter, and Terahertz Waves (2020): 1-8.

 

[68]
Arumona, A. E., I. S. Amiri, and P. Yupapin. “Plasmonic Micro-Antenna Characteristics Using Gold Grating Embedded in a Panda-Ring Circuit.” Plasmonics (2019): 1-7.

 

[69]
Rifat, Ahmmed A., Rajib Ahmed, and Bishanka Brata Bhowmik. “SOI Waveguide-Based Biochemical Sensors.” Computational Photonic Sensors. Springer, Cham, 2019. 423-448.