The Experts below are selected from a list of 2367 Experts worldwide ranked by ideXlab platform
Pascal Baldi - One of the best experts on this subject based on the ideXlab platform.
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Soft-Proton-Exchange Tapers for Low Insertion-Loss LiNbO3 Devices
Journal of Lightwave Technology, 2007Co-Authors: Davide Castaldini, Paolo Bassi, Sorin Tascu, Pierre Aschieri, Marc De Micheli, Pascal BaldiAbstract:We present the results of an experimental study of waveguide tapers realized in LiNbO3 using the soft-protonexchange process and the waveguide segmentation technique. Measurements show that they can be favorably introduced between the nonlinear or electrooptic part of the components, which require strong Mode confinement to increase efficiency, and the coupling section with a standard optical fiber, which requires low Mode confinement in order to have low coupling losses. These tapers allow almost Lossless Mode-shape transformation. Preliminary results show that they allow reducing the coupling losses by up to 0.7 dB, thus proving the practical interest of the approach
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Soft-Proton-Exchange Tapers for Low Insertion-Loss $ \hbox{LiNbO}_{3}$ Devices
Journal of Lightwave Technology, 2007Co-Authors: Davide Castaldini, Paolo Bassi, Sorin Tascu, Pierre Aschieri, M. P. De Micheli, Pascal BaldiAbstract:We present the results of an experimental study of waveguide tapers realized in LiNbO3 using the soft-proton-exchange process and the waveguide segmentation technique. Measurements show that they can be favorably introduced between the nonlinear or electrooptic part of the components, which require strong Mode confinement to increase efficiency, and the coupling section with a standard optical fiber, which requires low Mode confinement in order to have low coupling losses. These tapers allow almost Lossless Mode-shape transformation. Preliminary results show that they allow reducing the coupling losses by up to 0.7 dB, thus proving the practical interest of the approach.
Davide Castaldini - One of the best experts on this subject based on the ideXlab platform.
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Soft-Proton-Exchange Tapers for Low Insertion-Loss LiNbO3 Devices
Journal of Lightwave Technology, 2007Co-Authors: Davide Castaldini, Paolo Bassi, Sorin Tascu, Pierre Aschieri, Marc De Micheli, Pascal BaldiAbstract:We present the results of an experimental study of waveguide tapers realized in LiNbO3 using the soft-protonexchange process and the waveguide segmentation technique. Measurements show that they can be favorably introduced between the nonlinear or electrooptic part of the components, which require strong Mode confinement to increase efficiency, and the coupling section with a standard optical fiber, which requires low Mode confinement in order to have low coupling losses. These tapers allow almost Lossless Mode-shape transformation. Preliminary results show that they allow reducing the coupling losses by up to 0.7 dB, thus proving the practical interest of the approach
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Soft-Proton-Exchange Tapers for Low Insertion-Loss $ \hbox{LiNbO}_{3}$ Devices
Journal of Lightwave Technology, 2007Co-Authors: Davide Castaldini, Paolo Bassi, Sorin Tascu, Pierre Aschieri, M. P. De Micheli, Pascal BaldiAbstract:We present the results of an experimental study of waveguide tapers realized in LiNbO3 using the soft-proton-exchange process and the waveguide segmentation technique. Measurements show that they can be favorably introduced between the nonlinear or electrooptic part of the components, which require strong Mode confinement to increase efficiency, and the coupling section with a standard optical fiber, which requires low Mode confinement in order to have low coupling losses. These tapers allow almost Lossless Mode-shape transformation. Preliminary results show that they allow reducing the coupling losses by up to 0.7 dB, thus proving the practical interest of the approach.
Pierre Aschieri - One of the best experts on this subject based on the ideXlab platform.
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Soft-Proton-Exchange Tapers for Low Insertion-Loss LiNbO3 Devices
Journal of Lightwave Technology, 2007Co-Authors: Davide Castaldini, Paolo Bassi, Sorin Tascu, Pierre Aschieri, Marc De Micheli, Pascal BaldiAbstract:We present the results of an experimental study of waveguide tapers realized in LiNbO3 using the soft-protonexchange process and the waveguide segmentation technique. Measurements show that they can be favorably introduced between the nonlinear or electrooptic part of the components, which require strong Mode confinement to increase efficiency, and the coupling section with a standard optical fiber, which requires low Mode confinement in order to have low coupling losses. These tapers allow almost Lossless Mode-shape transformation. Preliminary results show that they allow reducing the coupling losses by up to 0.7 dB, thus proving the practical interest of the approach
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Soft-Proton-Exchange Tapers for Low Insertion-Loss $ \hbox{LiNbO}_{3}$ Devices
Journal of Lightwave Technology, 2007Co-Authors: Davide Castaldini, Paolo Bassi, Sorin Tascu, Pierre Aschieri, M. P. De Micheli, Pascal BaldiAbstract:We present the results of an experimental study of waveguide tapers realized in LiNbO3 using the soft-proton-exchange process and the waveguide segmentation technique. Measurements show that they can be favorably introduced between the nonlinear or electrooptic part of the components, which require strong Mode confinement to increase efficiency, and the coupling section with a standard optical fiber, which requires low Mode confinement in order to have low coupling losses. These tapers allow almost Lossless Mode-shape transformation. Preliminary results show that they allow reducing the coupling losses by up to 0.7 dB, thus proving the practical interest of the approach.
Paolo Bassi - One of the best experts on this subject based on the ideXlab platform.
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Soft-Proton-Exchange Tapers for Low Insertion-Loss LiNbO3 Devices
Journal of Lightwave Technology, 2007Co-Authors: Davide Castaldini, Paolo Bassi, Sorin Tascu, Pierre Aschieri, Marc De Micheli, Pascal BaldiAbstract:We present the results of an experimental study of waveguide tapers realized in LiNbO3 using the soft-protonexchange process and the waveguide segmentation technique. Measurements show that they can be favorably introduced between the nonlinear or electrooptic part of the components, which require strong Mode confinement to increase efficiency, and the coupling section with a standard optical fiber, which requires low Mode confinement in order to have low coupling losses. These tapers allow almost Lossless Mode-shape transformation. Preliminary results show that they allow reducing the coupling losses by up to 0.7 dB, thus proving the practical interest of the approach
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Soft-Proton-Exchange Tapers for Low Insertion-Loss $ \hbox{LiNbO}_{3}$ Devices
Journal of Lightwave Technology, 2007Co-Authors: Davide Castaldini, Paolo Bassi, Sorin Tascu, Pierre Aschieri, M. P. De Micheli, Pascal BaldiAbstract:We present the results of an experimental study of waveguide tapers realized in LiNbO3 using the soft-proton-exchange process and the waveguide segmentation technique. Measurements show that they can be favorably introduced between the nonlinear or electrooptic part of the components, which require strong Mode confinement to increase efficiency, and the coupling section with a standard optical fiber, which requires low Mode confinement in order to have low coupling losses. These tapers allow almost Lossless Mode-shape transformation. Preliminary results show that they allow reducing the coupling losses by up to 0.7 dB, thus proving the practical interest of the approach.
Sorin Tascu - One of the best experts on this subject based on the ideXlab platform.
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Soft-Proton-Exchange Tapers for Low Insertion-Loss LiNbO3 Devices
Journal of Lightwave Technology, 2007Co-Authors: Davide Castaldini, Paolo Bassi, Sorin Tascu, Pierre Aschieri, Marc De Micheli, Pascal BaldiAbstract:We present the results of an experimental study of waveguide tapers realized in LiNbO3 using the soft-protonexchange process and the waveguide segmentation technique. Measurements show that they can be favorably introduced between the nonlinear or electrooptic part of the components, which require strong Mode confinement to increase efficiency, and the coupling section with a standard optical fiber, which requires low Mode confinement in order to have low coupling losses. These tapers allow almost Lossless Mode-shape transformation. Preliminary results show that they allow reducing the coupling losses by up to 0.7 dB, thus proving the practical interest of the approach
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Soft-Proton-Exchange Tapers for Low Insertion-Loss $ \hbox{LiNbO}_{3}$ Devices
Journal of Lightwave Technology, 2007Co-Authors: Davide Castaldini, Paolo Bassi, Sorin Tascu, Pierre Aschieri, M. P. De Micheli, Pascal BaldiAbstract:We present the results of an experimental study of waveguide tapers realized in LiNbO3 using the soft-proton-exchange process and the waveguide segmentation technique. Measurements show that they can be favorably introduced between the nonlinear or electrooptic part of the components, which require strong Mode confinement to increase efficiency, and the coupling section with a standard optical fiber, which requires low Mode confinement in order to have low coupling losses. These tapers allow almost Lossless Mode-shape transformation. Preliminary results show that they allow reducing the coupling losses by up to 0.7 dB, thus proving the practical interest of the approach.
