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Time-domain compact macromodeling of linear photonic circuits via complex vector fitting

Yinghao Ye (UGent) , Domenico Spina (UGent) , Dirk Deschrijver (UGent) , Wim Bogaerts (UGent) and Tom Dhaene (UGent)
(2019) PHOTONICS RESEARCH. 7(7). p.771-782
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Abstract
In this paper, a novel baseband macromodeling framework for linear passive photonic circuits is proposed, which is able to build accurate and compact models while taking into account the nonidealities, such as higher order dispersion and wavelength-dependent losses of the circuits. Compared to a previous modeling method based on the vector fitting algorithm, the proposed modeling approach introduces a novel complex vector fitting technique. It can generate a half-size state-space model for the same applications, thereby achieving a major improvement in efficiency of the time-domain simulations. The proposed modeling framework requires only measured or simulated scattering parameters as input, which are widely used to represent linear and passive systems. Three photonic circuits are studied to demonstrate the accuracy and efficiency of the proposed technique. (C) 2019 Chinese Laser Press
Keywords
MACH-ZEHNDER MODULATOR, RATIONAL APPROXIMATION, MODEL, SIMULATION, ACCURATE

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Chicago
Ye, Yinghao, Domenico Spina, Dirk Deschrijver, Wim Bogaerts, and Tom Dhaene. 2019. “Time-domain Compact Macromodeling of Linear Photonic Circuits via Complex Vector Fitting.” Photonics Research 7 (7): 771–782.
APA
Ye, Yinghao, Spina, D., Deschrijver, D., Bogaerts, W., & Dhaene, T. (2019). Time-domain compact macromodeling of linear photonic circuits via complex vector fitting. PHOTONICS RESEARCH, 7(7), 771–782.
Vancouver
1.
Ye Y, Spina D, Deschrijver D, Bogaerts W, Dhaene T. Time-domain compact macromodeling of linear photonic circuits via complex vector fitting. PHOTONICS RESEARCH. Washington: Optical Soc Amer; 2019;7(7):771–82.
MLA
Ye, Yinghao et al. “Time-domain Compact Macromodeling of Linear Photonic Circuits via Complex Vector Fitting.” PHOTONICS RESEARCH 7.7 (2019): 771–782. Print.
@article{8623405,
  abstract     = {In this paper, a novel baseband macromodeling framework for linear passive photonic circuits is proposed, which is able to build accurate and compact models while taking into account the nonidealities, such as higher order dispersion and wavelength-dependent losses of the circuits. Compared to a previous modeling method based on the vector fitting algorithm, the proposed modeling approach introduces a novel complex vector fitting technique. It can generate a half-size state-space model for the same applications, thereby achieving a major improvement in efficiency of the time-domain simulations. The proposed modeling framework requires only measured or simulated scattering parameters as input, which are widely used to represent linear and passive systems. Three photonic circuits are studied to demonstrate the accuracy and efficiency of the proposed technique. (C) 2019 Chinese Laser Press},
  author       = {Ye, Yinghao and Spina, Domenico and Deschrijver, Dirk and Bogaerts, Wim and Dhaene, Tom},
  issn         = {2327-9125},
  journal      = {PHOTONICS RESEARCH},
  keywords     = {MACH-ZEHNDER MODULATOR,RATIONAL APPROXIMATION,MODEL,SIMULATION,ACCURATE},
  language     = {eng},
  number       = {7},
  pages        = {771--782},
  publisher    = {Optical Soc Amer},
  title        = {Time-domain compact macromodeling of linear photonic circuits via complex vector fitting},
  url          = {http://dx.doi.org/10.1364/PRJ.7.000771},
  volume       = {7},
  year         = {2019},
}

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