The Experts below are selected from a list of 78366 Experts worldwide ranked by ideXlab platform
Vincent Paillard - One of the best experts on this subject based on the ideXlab platform.
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Origin of Second-Harmonic Generation from individual silicon nanowires
Physical Review B, 2016Co-Authors: Peter R. Wiecha, Arnaud Arbouet, Christian Girard, Thierry Baron, Vincent PaillardAbstract:We investigate Second Harmonic Generation from individual silicon nanowires and study the influence of resonant optical modes on the far-field nonlinear emission. We find that the polarization of the Second Harmonic has a size-dependent behavior and explain this phenomenon by a combination of different surface and bulk nonlinear susceptibility contributions. We show that the Second Harmonic Generation has an entirely different origin, depending on whether the incident illumination is polarized parallel or perpendicularly to the nanowire axis. The results open perspectives for further geometry-based studies on the origin of Second Harmonic Generation in nanostructures of high-index centrosymmetric semiconductors.
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Origin of Second-Harmonic Generation from individual silicon nanowires
Physical Review B: Condensed Matter and Materials Physics, 2016Co-Authors: Peter R. Wiecha, Arnaud Arbouet, Christian Girard, Thierry Baron, Vincent PaillardAbstract:We investigate Second Harmonic Generation from individual silicon nanowires and study the influence of resonant optical modes on the far field nonlinear emission. We find that the polarization of the Second Harmonic has a size-dependent behavior and explain this phenomenon by considering different surface and bulk nonlinear susceptibility contributions. We show that the Second Harmonic Generation has an entirely different origin, depending on the nanowire diameter and on whether the incident illumination is polarized parallel or perpendicular to the nanowire axis. The results open perspectives for further geometry-based studies on the origin and control of Second Harmonic Generation in nanostructures of high-refractive index centrosymmetric dielectrics.
Peter R. Wiecha - One of the best experts on this subject based on the ideXlab platform.
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Origin of Second-Harmonic Generation from individual silicon nanowires
Physical Review B, 2016Co-Authors: Peter R. Wiecha, Arnaud Arbouet, Christian Girard, Thierry Baron, Vincent PaillardAbstract:We investigate Second Harmonic Generation from individual silicon nanowires and study the influence of resonant optical modes on the far-field nonlinear emission. We find that the polarization of the Second Harmonic has a size-dependent behavior and explain this phenomenon by a combination of different surface and bulk nonlinear susceptibility contributions. We show that the Second Harmonic Generation has an entirely different origin, depending on whether the incident illumination is polarized parallel or perpendicularly to the nanowire axis. The results open perspectives for further geometry-based studies on the origin of Second Harmonic Generation in nanostructures of high-index centrosymmetric semiconductors.
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Origin of Second-Harmonic Generation from individual silicon nanowires
Physical Review B: Condensed Matter and Materials Physics, 2016Co-Authors: Peter R. Wiecha, Arnaud Arbouet, Christian Girard, Thierry Baron, Vincent PaillardAbstract:We investigate Second Harmonic Generation from individual silicon nanowires and study the influence of resonant optical modes on the far field nonlinear emission. We find that the polarization of the Second Harmonic has a size-dependent behavior and explain this phenomenon by considering different surface and bulk nonlinear susceptibility contributions. We show that the Second Harmonic Generation has an entirely different origin, depending on the nanowire diameter and on whether the incident illumination is polarized parallel or perpendicular to the nanowire axis. The results open perspectives for further geometry-based studies on the origin and control of Second Harmonic Generation in nanostructures of high-refractive index centrosymmetric dielectrics.
Arnaud Arbouet - One of the best experts on this subject based on the ideXlab platform.
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Origin of Second-Harmonic Generation from individual silicon nanowires
Physical Review B, 2016Co-Authors: Peter R. Wiecha, Arnaud Arbouet, Christian Girard, Thierry Baron, Vincent PaillardAbstract:We investigate Second Harmonic Generation from individual silicon nanowires and study the influence of resonant optical modes on the far-field nonlinear emission. We find that the polarization of the Second Harmonic has a size-dependent behavior and explain this phenomenon by a combination of different surface and bulk nonlinear susceptibility contributions. We show that the Second Harmonic Generation has an entirely different origin, depending on whether the incident illumination is polarized parallel or perpendicularly to the nanowire axis. The results open perspectives for further geometry-based studies on the origin of Second Harmonic Generation in nanostructures of high-index centrosymmetric semiconductors.
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Origin of Second-Harmonic Generation from individual silicon nanowires
Physical Review B: Condensed Matter and Materials Physics, 2016Co-Authors: Peter R. Wiecha, Arnaud Arbouet, Christian Girard, Thierry Baron, Vincent PaillardAbstract:We investigate Second Harmonic Generation from individual silicon nanowires and study the influence of resonant optical modes on the far field nonlinear emission. We find that the polarization of the Second Harmonic has a size-dependent behavior and explain this phenomenon by considering different surface and bulk nonlinear susceptibility contributions. We show that the Second Harmonic Generation has an entirely different origin, depending on the nanowire diameter and on whether the incident illumination is polarized parallel or perpendicular to the nanowire axis. The results open perspectives for further geometry-based studies on the origin and control of Second Harmonic Generation in nanostructures of high-refractive index centrosymmetric dielectrics.
Christian Girard - One of the best experts on this subject based on the ideXlab platform.
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Origin of Second-Harmonic Generation from individual silicon nanowires
Physical Review B, 2016Co-Authors: Peter R. Wiecha, Arnaud Arbouet, Christian Girard, Thierry Baron, Vincent PaillardAbstract:We investigate Second Harmonic Generation from individual silicon nanowires and study the influence of resonant optical modes on the far-field nonlinear emission. We find that the polarization of the Second Harmonic has a size-dependent behavior and explain this phenomenon by a combination of different surface and bulk nonlinear susceptibility contributions. We show that the Second Harmonic Generation has an entirely different origin, depending on whether the incident illumination is polarized parallel or perpendicularly to the nanowire axis. The results open perspectives for further geometry-based studies on the origin of Second Harmonic Generation in nanostructures of high-index centrosymmetric semiconductors.
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Origin of Second-Harmonic Generation from individual silicon nanowires
Physical Review B: Condensed Matter and Materials Physics, 2016Co-Authors: Peter R. Wiecha, Arnaud Arbouet, Christian Girard, Thierry Baron, Vincent PaillardAbstract:We investigate Second Harmonic Generation from individual silicon nanowires and study the influence of resonant optical modes on the far field nonlinear emission. We find that the polarization of the Second Harmonic has a size-dependent behavior and explain this phenomenon by considering different surface and bulk nonlinear susceptibility contributions. We show that the Second Harmonic Generation has an entirely different origin, depending on the nanowire diameter and on whether the incident illumination is polarized parallel or perpendicular to the nanowire axis. The results open perspectives for further geometry-based studies on the origin and control of Second Harmonic Generation in nanostructures of high-refractive index centrosymmetric dielectrics.
Thierry Baron - One of the best experts on this subject based on the ideXlab platform.
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Origin of Second-Harmonic Generation from individual silicon nanowires
Physical Review B, 2016Co-Authors: Peter R. Wiecha, Arnaud Arbouet, Christian Girard, Thierry Baron, Vincent PaillardAbstract:We investigate Second Harmonic Generation from individual silicon nanowires and study the influence of resonant optical modes on the far-field nonlinear emission. We find that the polarization of the Second Harmonic has a size-dependent behavior and explain this phenomenon by a combination of different surface and bulk nonlinear susceptibility contributions. We show that the Second Harmonic Generation has an entirely different origin, depending on whether the incident illumination is polarized parallel or perpendicularly to the nanowire axis. The results open perspectives for further geometry-based studies on the origin of Second Harmonic Generation in nanostructures of high-index centrosymmetric semiconductors.
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Origin of Second-Harmonic Generation from individual silicon nanowires
Physical Review B: Condensed Matter and Materials Physics, 2016Co-Authors: Peter R. Wiecha, Arnaud Arbouet, Christian Girard, Thierry Baron, Vincent PaillardAbstract:We investigate Second Harmonic Generation from individual silicon nanowires and study the influence of resonant optical modes on the far field nonlinear emission. We find that the polarization of the Second Harmonic has a size-dependent behavior and explain this phenomenon by considering different surface and bulk nonlinear susceptibility contributions. We show that the Second Harmonic Generation has an entirely different origin, depending on the nanowire diameter and on whether the incident illumination is polarized parallel or perpendicular to the nanowire axis. The results open perspectives for further geometry-based studies on the origin and control of Second Harmonic Generation in nanostructures of high-refractive index centrosymmetric dielectrics.