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大规模集成光波导时域有限元差分法仿真的子域合成法 被引量:11

Synthetic Subdomain Method for Large-Scale Integrated Optical Waveguides FDTD SImulation
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摘要 用时域有限元差分的子域合成法(Synthetic subdomain method of FDTD)对大规模的光波导模拟,把仿真的光波导划分成两个或多个区域,在不影响仿真精度的条件下,删除对仿真对象影响不大的区域,并相应改变吸收边界条件进行时域有限元差分法数值模拟,考查光的传播和损耗状况,并与常规方法的运算结果相比较,结果一致且不影响计算精度。与常规方法相比,两段子域合成法所占内存约为前者的55%,时间约为前者的60%,三段子域合成法所占内存约为前者的31%,时间约为前者的28%,可见子域合成法比常规方法更有利于应用于大规模集成光波导的数值模拟仿真,对节省硬件及时间资源具有实际意义,提高工作效率。 The synthetic subdomain method (SSDM) of finite-difference time-domain (FDTD) method is used to simulate the large-scale optical waveguides. The waveguide is divided into two or more parts, and the parts whose influence on the simulation result is ignorable are deleted on the condition that the simulating precision does not deteriorate. In the simulation, the absorption boundary condition is changed accordingly, and the light transmission and loss are also considered. The simulation results agrees with that of conventional method, and no precision decline is found. The two-part method occupies 55 % memory and 60 % time of the conventional FDTD method. Three-part SSDM uses 31% memory and 28%. It is demonstrated that the SSDM is superior to the conventional FDTD method for large-scale integrated optical waveguide simulation, saves hardware resource and time, and improves the working efficiency.
作者 徐建锋 薄中阳 白剑 杨国光
机构地区 浙江大学现代光学仪器国家重点实验室
出处 《光学学报》 EI CAS CSCD 北大核心 2007年第1期5-9,共5页 Acta Optica Sinica
关键词 导波光学 时域有限元差分法 子域合成法 大规模仿真 集成光波导 guided wave optics finite-difference time domain method synthetic subdomain method large-scale simulation integrated optical waveguide
分类号 TN252 [电子电信—物理电子学]
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参考文献13

  • 1戴道锌,殷源,潘德荣,何赛灵,田毅.弯曲波导之间的耦合分析[J].光子学报,2002,31(11):1413-1417. 被引量:5
  • 2Kane S. Yee. Numerical solution of initial boundary value problems involving Maxwell's equations in isotropic media [J]. IEEE Transactions on Antennas and Propagation, 1966, 14(3) : 302-307
  • 3Chengbin Peng, M. Nafi Toksoez. An optimal absorbing boundary condition for finite difference modeling of acoustic and elastic wave propagation[J]. J. Acoust. Soc. Am., 1994, 95(2): 733-745
  • 4M. Heiblum, J. H. Harris. Analysis of curved optical waveguides by conformal transformation[J].IEEE J. Quantum Electron. , 1975, QE- 11(2) : 75-83
  • 5Tieshan Guan, Mingyang Chen, Zhilong Zhang et al.. Numerical simulation and analysis of losses in air-core plastic photonic bandgap fibers[J]. Chin. Opt. Lett., 2005, 3(6): 313-316
  • 6朱志宏,叶卫民,季家镕,袁晓东,曾淳.用时域有限差分方法研究非惯性坐标系下光子晶体传输特性[J].光学学报,2005,25(10):1415-1419. 被引量:5
  • 7孔繁敏,李康,刘新,吴涛,郭毅峰.标量PML-FDTD算法在弱导光器件仿真中的应用[J].中国激光,2004,31(4):417-420. 被引量:1
  • 8杨建义,王明华.光波导弯曲的结构优化[J].光电子.激光,1999,10(4):305-309. 被引量:11
  • 9E. A. J. Marcatili, S. E. Miller. Improved relations decribing directiona 1 control in electromagnetic wave guidance[J]. Bell Syst. Technol. J. , 1969, 48(9): 2161-2188
  • 10Gerrit Mur. Absorbing boundary conditions for the finite difference approximation of the time domain electromagnetic-field equations[J].IEEE. EMC, 1981, 23(4): 377-382

二级参考文献27

  • 1金崇君,秦柏,杨森,秦汝虎.三角形复式晶格的光子带结构研究[J].光学学报,1997,17(4):409-413. 被引量:24
  • 2Eli Yablonovitch. Inhibited spontaneous emission in solid-state physics and electronics[J]. Phys. Rev. Lett. , 1987, 58 (20) :2059-2062.
  • 3Sajeev John. Strong localization of photons in certain disordered dielectric superlattices[J]. Phys. Rev. Lett. , 1987, 58 (23)2486-2489.
  • 4J. D. Joannopoulos, P. R. Villeneuve S. Fan. Photonic crystals: putting a new twist on light[J]. Nature, 1997, 386(6621): 143- 149.
  • 5I. Abram, G. Bourdon. Photonic well microcavities for spontaneous emission control [J]. Phys. Rev. (A), 1996,54(8), 3476-3479.
  • 6K. M. Ho, C. T. Chen, C. M. Soukoulis. Existence of a photonic gap in periodic dielectric structures[J]. Phys. Rev.Lett., 1990, 65(25): 3152-3155.
  • 7M. M. Sigalas, C. T. Chan, K. M. Ho et al.. Metallic photonic band-gap materials[J]. Phys. Rev. (B), 1995, 52(10): 11744-11751.
  • 8John D. Joannopoulos, Robert D Meade, Joshua N. Winn.Photonic Crystals: Molding the Flow of Light [M]. Princeton:Princeton University Press, 1995.
  • 9Attiha Mekis, J. C. Chen, I. Kurland et al.. High transmission through sharp bends in photonic crystal waveguides[J]. Phys.Rev. Lett. , 1996, 77(18): 3787-3790.
  • 10J. B. Pendry, A. MacKinnon. Calculation of photon dispersion relations[J]. Phys. Rev. Lett., 1992, 69(19): 2772-2775.

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光学学报
2007年 第1期

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