Vectorial FDTD Technique for the Analysis of Optical Second-Harmonic Generation
A vectorial time-domain simulator of integrated optical structures containing second-order nonlinearities has been formulated and tested. The technique is based on the direct time-domain representation of the coupled nonlinear Maxwell's equations of the propagating fields. The proposed algorith...
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Published in | IEEE photonics technology letters Vol. 21; no. 5; pp. 310 - 312 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
New York
IEEE
01.03.2009
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
Subjects | |
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Abstract | A vectorial time-domain simulator of integrated optical structures containing second-order nonlinearities has been formulated and tested. The technique is based on the direct time-domain representation of the coupled nonlinear Maxwell's equations of the propagating fields. The proposed algorithm accounts for the full optical coefficient tensor, input depletion, and device-wave interactions, where the inaccuracies associated with the scalar and paraxial approximations are avoided. Error analysis associated with the proposed scheme is also given. The proposed model should find application in a wide range of device structures and also in the analysis of short-pulse propagation in second-order nonlinear devices. |
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AbstractList | A vectorial time-domain simulator of integrated optical structures containing second-order nonlinearities has been formulated and tested. The technique is based on the direct time-domain representation of the coupled nonlinear Maxwell's equations of the propagating fields. The proposed algorithm accounts for the full optical coefficient tensor, input depletion, and device-wave interactions, where the inaccuracies associated with the scalar and paraxial approximations are avoided. Error analysis associated with the proposed scheme is also given. The proposed model should find application in a wide range of device structures and also in the analysis of short-pulse propagation in second-order nonlinear devices. A vectorial time-domain simulator of integrated optical structures containing second-order nonlinearities has been formulated and tested. The technique is based on the direct time-domain representation of the coupled nonlinear Maxwellas equations of the propagating fields. The proposed algorithm accounts for the full optical coefficient tensor, input depletion, and device-wave interactions, where the inaccuracies associated with the scalar and paraxial approximations are avoided. Error analysis associated with the proposed scheme is also given. The proposed model should find application in a wide range of device structures and also in the analysis of short-pulse propagation in second-order nonlinear devices. |
Author | Masoudi, H.M. Al-Mudhaffar, H.M. Alsunaidi, M.A. |
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Cites_doi | 10.1109/3.477734 10.1109/3.825874 10.1109/50.923492 10.1364/JOSAB.21.000330 10.1109/68.839030 10.1109/8.558652 10.1109/JLT.2005.859835 |
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Copyright | Copyright The Institute of Electrical and Electronics Engineers, Inc. (IEEE) 2009 |
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SubjectTerms | Algorithms Conferences Couplings Devices Fiber optics Finite difference methods Finite-difference time-domain (FDTD) method Integrated optics Maxwell equations Maxwell's equations Nonlinear optical devices Nonlinear optics Nonlinearity Optical devices Optical fibers Optical propagation optical waveguides Propagation second-harmonic generation (SHG) second-order nonlinearity Testing Time domain analysis |
Title | Vectorial FDTD Technique for the Analysis of Optical Second-Harmonic Generation |
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