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Ghanbari, Ashkan, Olyaee, Saeed. (1402). Numerical Study on Normalized Split-step Fourier Method and Fourth-order Runge-Kutta Method in Laser Pulses Generation by Use of Photonic Crystal Fibers. نشریه علمی پژوهشی دانشگاه آزاد اسلامی, 17(3), 49-55. doi: 10.30486/mjee.2023.1975390.1031
Ashkan Ghanbari; Saeed Olyaee. "Numerical Study on Normalized Split-step Fourier Method and Fourth-order Runge-Kutta Method in Laser Pulses Generation by Use of Photonic Crystal Fibers". نشریه علمی پژوهشی دانشگاه آزاد اسلامی, 17, 3, 1402, 49-55. doi: 10.30486/mjee.2023.1975390.1031
Ghanbari, Ashkan, Olyaee, Saeed. (1402). 'Numerical Study on Normalized Split-step Fourier Method and Fourth-order Runge-Kutta Method in Laser Pulses Generation by Use of Photonic Crystal Fibers', نشریه علمی پژوهشی دانشگاه آزاد اسلامی, 17(3), pp. 49-55. doi: 10.30486/mjee.2023.1975390.1031
Ghanbari, Ashkan, Olyaee, Saeed. Numerical Study on Normalized Split-step Fourier Method and Fourth-order Runge-Kutta Method in Laser Pulses Generation by Use of Photonic Crystal Fibers. نشریه علمی پژوهشی دانشگاه آزاد اسلامی, 1402; 17(3): 49-55. doi: 10.30486/mjee.2023.1975390.1031

Numerical Study on Normalized Split-step Fourier Method and Fourth-order Runge-Kutta Method in Laser Pulses Generation by Use of Photonic Crystal Fibers

Majlesi Journal of Electrical Engineering
مقاله 7، دوره 17، شماره 3، آذر 2023، صفحه 49-55    اصل مقاله (616.61 K)
نوع مقاله: Reseach Article
شناسه دیجیتال (DOI): 10.30486/mjee.2023.1975390.1031
نویسندگان
Ashkan Ghanbari1؛ Saeed Olyaee* 2
1Nano-photonic and Optoelectronic Research Laboratory (NOR Lab), Shahid Rajaee Teacher Training University, Tehran 16788-15811, Iran.
2Department of Electrical Engineering, Shahid Rajaee Teacher Training University, Tehran 16788-15811, Iran.
چکیده
In this work, we study the generation of ultrashort femtosecond laser pulses in photonic crystal fibers through the widely used symmetric split-step Fourier method (S-SSFM). The results are compared with the method of fourth-order Runge-Kutta method (RK4) as the most recognized and powerful method in the analysis of the evolution of ultrashort femtosecond laser pulses. The results show that although S-SSFM is a widely used method, its accuracy decreases for the selected relatively large step sizes of  in comparison with RK4. In contrast, the accuracy of the mentioned methods becomes closer to each other by selecting relatively small step sizes of .
کلیدواژه‌ها
Ultrashort Laser Pulse؛ Optical Pulse؛ Runge-Kutta؛ Split-step؛ Photonic Crystal Fiber
مراجع
  • [1] V. Mamyshev, S. V. Chernikov, “Ultrashort-pulse propagation in optical fibers”, Journal of optics letter, Vol.15, No.19,1990.
  • [2] Garzo, E. Mendoza, “Simulation for fiber optics pulse propagation through a numerical solution of the nonlinear schrödinger equation”, Conference on physics, ETSETB, Universität Polytechnical de Catalunya, 2020.
  • [3] P. Agrawal, “Nonlinear fiber optics”, 4th Edition, Academic Press, 2007.
  • [4] C. T. Munaweera, K.A.I.L.W. Gamalath, “Simulation of pulse propagation in optical fibers”, International letters of chemistry, physics and astronomy, ISSN: 2299-3843, Vol. 64, pp 159-170, 2016.
  • [5] Sun, “Propagation of solitons in optical fibers with generalized Kudryashov’s refractive index”, Journal of results in physics, Vol. 28, No. 2021, pp.1-8, 2021.
  • [6] F. Garcia, “Nonlinear pulse propagation in optical fibers”, Master of science thesis, University of NTNU, pp.1-142, 2012.
  • [7] Mozaffari, A. Farmani, “On-Chip single-mode optofluidic microresonator dye laser sensor”, IEEE sensors Journal, Vol. 20, No. 8, pp. 3556-3563, 2020.
  • [8] Heydari, A.R. Zali, R.E. Gildeh, A. Farmani, “Fully integrated, 80 GHz bandwidth, 1.3μ m InAs/InGaAs CW-PW quantum dot passively colliding-pulse mode-locked (CPM) lasers for IR sensing application”,IEEE sensors journal, Vol. 22, No. 7, pp.6528-6535, 2022.
  • [9] Farmani, M. Farhang, M.H. Sheikhi, “High performance polarization-independent quantum dot semiconductor optical amplifier with 22 dB fiber to fiber gain using mode propagation Tuning without additional polarization controller”, Journal of optics and laser technology, Vol. 93, No. 2017, pp.127-132,2017.
  • [10] F. Chen, S. Chi, B. Luo, “Femtosecond soliton propagation in an optical fiber”, Journal of Optik, Vol. 116, No. 6, pp. 267-271, 2002.
  • [11] V.J. Raja, K. Porseian, “Numerical Investigation of Soliton Pulse Propagation in Photonic Crystal Fiber”, Asia Optical Fiber Communication and Optoelectronic Exposition and Conference, ISBN: 978-1-55752-863-6, 2008.
  • [12] C. Long, H.N. Viet, M. Tripenbach, K.D. Xuan, “Propagation technique for ultrashort pulses III: pulse splitting of ultrashort pulses in a Kerr medium”, Journal of computational methods in science and technology, Vol. 14, No.1, 2008.
  • [13] Safaei, M.A. Bolorizadeh, “Solving nonlinear Schrödinger equation by a new and fast method”, Journal of IOP- Physica Scripta, Vol. 96, No.12, 2021.
  • [14] V. Bourdine, V.A. Bourdine, O.G. Morozov, “Algorithm for solving a system of coupled nonlinear Schrödinger equations by the split-step method to describe the evolution of a high-power femtosecond optical pulse in an optical polarization maintaining Fiber”, Journal of Fibers-MDPI, Vol.10, No.3, 2021.
  • [15] Jiang, D. Wang, Q. Fan, M. Zhang, C. Lu, A.P.T. Lau, “Solving the nonlinear Schrödinger equation in optical fibers using physics-informed neural network”, Optical fiber communication conference, ISBN: 978-1-943580-86-6, 2021.
  • [16] Ghanbari, A. Sadr, A. Kashaninia, “Supercontinuum generation with femtosecond optical pulse compression in silicon photonic crystal fibers at 2500 nm”, Journal of optical and quantum electronics, Vol. 40, No. 411, pp. 1-12, 2018.
  • [17] Hault, “A Fourth-Order Runge–Kutta in the Interaction Picture method for simulating supercontinuum generation in optical fibers”, Journal of lightwave technology, Vol.25, No.12, pp.3770-3775, 2007.
  • [18] Ghanbari, “Modelling highly nonlinear photonic crystal fibers for efficient propagation of ultrashort optical pulses”, PhD Thesis, Islamic Azad University, Tehran central branch, 2018.
  • [19] Wen, Y. Wang, W. Su, Y. Xiang, X. Fu and D. Fan, “Modulation instability in nonlinear negative-index material”, Journal of Physics Review, Vol. 73, No. 3. pp. 036617-03621, 2006.
  • [20] Shackeerali, A.K. Shafeeque, A. Uthayakumar, “Impact of higher-order effects on modulation instability in negative index materials”, Optik, Vol. 256, Article Number 168660, 2022.
  • [21] Saghei, “Chalcogenide highly nonlinear photonic crystal fibers for OCT applications”, PhD Thesis, Islamic Azad University, Science and Research Branch, pp.1-135, 2015.
  • [22] A. Trofimov, S. Stepanenko, A. Razgulin, “Conservation laws of femtosecond pulse propagation described by generalized nonlinear Schrödinger equation with cubic nonlinearity”, Journal of mathematics and computers in simulation, Vol. 182, No. 2021, pp. 366-396, 2021.
  • [23] Conforti, C.M. Arabi, A. Mussot, A. Kudlinski, “Fast and accurate modeling of nonlinear pulse propagation in graded-index multimode fibers”, Journal of optical society of America, Vol. 42, No. 19, pp. 4004-4007, 2017.
  • [24] Pakarzadeh, Z. Delirian, “Propagation of short pulses in dispersion-engineered silicon nanowires: impact of chirp parameter”, Journal of springer, Vol. 14, No. 54, pp. 1221-1225, 2021.
 

 

 

 

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