The Experts below are selected from a list of 22806 Experts worldwide ranked by ideXlab platform
Richard C. Tiberio - One of the best experts on this subject based on the ideXlab platform.
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waveguide coupled algaas gaas microcavity ring and disk resonators with high finesse and 21 6 nm Free Spectral Range
Optics Letters, 1997Co-Authors: D. Rafizadeh, J.p. Zhang, S. C. Hagness, Allen Taflove, K. A. Stair, Sengtiong Ho, Richard C. TiberioAbstract:We report the realization and demonstration of novel semiconductor waveguide-coupled microcavity ring and disk resonators. For a 10.5-µm-diameter disk resonator, we measure a finesse of 120, a resonant linewidth of 0.18 nm, and a Free-Spectral Range of 21.6 nm in the 1.55-µm-wavelength region. We present the nanofabrication methods and the experimental results for 10.5- and 20.5-µm-diameter ring and disk resonators to show the feasibility of such devices.
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WAVEGUIDE-COUPLED ALGAAS/GAAS MICROCAVITY RING AND DISK RESONATORS WITH HIGH FINESSE AND 21.6-NM Free Spectral Range
Optics letters, 1997Co-Authors: D. Rafizadeh, J.p. Zhang, S. C. Hagness, Allen Taflove, K. A. Stair, Richard C. TiberioAbstract:We report the realization and demonstration of novel semiconductor waveguide-coupled microcavity ring and disk resonators. For a 10.5-microm-diameter disk resonator, we measure a finesse of 120, a resonant linewidth of 0.18 nm, and a Free-Spectral Range of 21.6 nm in the 1.55-mum-wavelength region. We present the nanofabrication methods and the experimental results for 10.5- and 20.5-mum-diameter ring and disk resonators to show the feasibility of such devices.
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Nanofabricated waveguide-coupled 1.5-µm microcavity ring and disk resonators with high Q and 21.6-nm Free Spectral Range
1997Co-Authors: D. Rafizadeh, J.p. Zhang, S. C. Hagness, Allen Taflove, K. A. Stair, Richard C. TiberioAbstract:We report the first realization of waveguide-coupled AlGaAs/GaAs ring and disk microcavity resonators with 21.6-nm Free Spectral Range and finesse of 120, We present the nanofabrication methods and the experimental results.
Josep Prat - One of the best experts on this subject based on the ideXlab platform.
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wdm tdm pon experiments using the awg Free Spectral Range periodicity to transmit unicast and multicast data
Optics Express, 2005Co-Authors: Carlos Bock, Josep PratAbstract:A hybrid WDM/TDM PON architecture implemented by means of two cascaded Arrayed Waveguide Gratings (AWG) is presented. Using the Free Spectral Range (FSR) periodicity of AWGs we transmit unicast and multicast traffic on different wavelengths to each Optical Network Unit (ONU). The OLT is equipped with two laser stacks, a tunable one for unicast transmission and a fixed one for multicast transmission. We propose the ONU to be reflective in order to avoid any light source at the Costumer Premises Equipment (CPE). Optical transmission tests demonstrate correct transmission at 2.5Gbps up to 30km.
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WDM/TDM PON experiments using the AWG Free Spectral Range periodicity to transmit unicast and multicast data.
Optics express, 2005Co-Authors: Carlos Bock, Josep PratAbstract:A hybrid WDM/TDM PON architecture implemented by means of two cascaded Arrayed Waveguide Gratings (AWG) is presented. Using the Free Spectral Range (FSR) periodicity of AWGs we transmit unicast and multicast traffic on different wavelengths to each Optical Network Unit (ONU). The OLT is equipped with two laser stacks, a tunable one for unicast transmission and a fixed one for multicast transmission. We propose the ONU to be reflective in order to avoid any light source at the Costumer Premises Equipment (CPE). Optical transmission tests demonstrate correct transmission at 2.5Gbps up to 30km.
D. Rafizadeh - One of the best experts on this subject based on the ideXlab platform.
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waveguide coupled algaas gaas microcavity ring and disk resonators with high finesse and 21 6 nm Free Spectral Range
Optics Letters, 1997Co-Authors: D. Rafizadeh, J.p. Zhang, S. C. Hagness, Allen Taflove, K. A. Stair, Sengtiong Ho, Richard C. TiberioAbstract:We report the realization and demonstration of novel semiconductor waveguide-coupled microcavity ring and disk resonators. For a 10.5-µm-diameter disk resonator, we measure a finesse of 120, a resonant linewidth of 0.18 nm, and a Free-Spectral Range of 21.6 nm in the 1.55-µm-wavelength region. We present the nanofabrication methods and the experimental results for 10.5- and 20.5-µm-diameter ring and disk resonators to show the feasibility of such devices.
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WAVEGUIDE-COUPLED ALGAAS/GAAS MICROCAVITY RING AND DISK RESONATORS WITH HIGH FINESSE AND 21.6-NM Free Spectral Range
Optics letters, 1997Co-Authors: D. Rafizadeh, J.p. Zhang, S. C. Hagness, Allen Taflove, K. A. Stair, Richard C. TiberioAbstract:We report the realization and demonstration of novel semiconductor waveguide-coupled microcavity ring and disk resonators. For a 10.5-microm-diameter disk resonator, we measure a finesse of 120, a resonant linewidth of 0.18 nm, and a Free-Spectral Range of 21.6 nm in the 1.55-mum-wavelength region. We present the nanofabrication methods and the experimental results for 10.5- and 20.5-mum-diameter ring and disk resonators to show the feasibility of such devices.
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Nanofabricated waveguide-coupled 1.5-µm microcavity ring and disk resonators with high Q and 21.6-nm Free Spectral Range
1997Co-Authors: D. Rafizadeh, J.p. Zhang, S. C. Hagness, Allen Taflove, K. A. Stair, Richard C. TiberioAbstract:We report the first realization of waveguide-coupled AlGaAs/GaAs ring and disk microcavity resonators with 21.6-nm Free Spectral Range and finesse of 120, We present the nanofabrication methods and the experimental results.
Carlos Bock - One of the best experts on this subject based on the ideXlab platform.
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wdm tdm pon experiments using the awg Free Spectral Range periodicity to transmit unicast and multicast data
Optics Express, 2005Co-Authors: Carlos Bock, Josep PratAbstract:A hybrid WDM/TDM PON architecture implemented by means of two cascaded Arrayed Waveguide Gratings (AWG) is presented. Using the Free Spectral Range (FSR) periodicity of AWGs we transmit unicast and multicast traffic on different wavelengths to each Optical Network Unit (ONU). The OLT is equipped with two laser stacks, a tunable one for unicast transmission and a fixed one for multicast transmission. We propose the ONU to be reflective in order to avoid any light source at the Costumer Premises Equipment (CPE). Optical transmission tests demonstrate correct transmission at 2.5Gbps up to 30km.
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WDM/TDM PON experiments using the AWG Free Spectral Range periodicity to transmit unicast and multicast data.
Optics express, 2005Co-Authors: Carlos Bock, Josep PratAbstract:A hybrid WDM/TDM PON architecture implemented by means of two cascaded Arrayed Waveguide Gratings (AWG) is presented. Using the Free Spectral Range (FSR) periodicity of AWGs we transmit unicast and multicast traffic on different wavelengths to each Optical Network Unit (ONU). The OLT is equipped with two laser stacks, a tunable one for unicast transmission and a fixed one for multicast transmission. We propose the ONU to be reflective in order to avoid any light source at the Costumer Premises Equipment (CPE). Optical transmission tests demonstrate correct transmission at 2.5Gbps up to 30km.
K. A. Stair - One of the best experts on this subject based on the ideXlab platform.
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waveguide coupled algaas gaas microcavity ring and disk resonators with high finesse and 21 6 nm Free Spectral Range
Optics Letters, 1997Co-Authors: D. Rafizadeh, J.p. Zhang, S. C. Hagness, Allen Taflove, K. A. Stair, Sengtiong Ho, Richard C. TiberioAbstract:We report the realization and demonstration of novel semiconductor waveguide-coupled microcavity ring and disk resonators. For a 10.5-µm-diameter disk resonator, we measure a finesse of 120, a resonant linewidth of 0.18 nm, and a Free-Spectral Range of 21.6 nm in the 1.55-µm-wavelength region. We present the nanofabrication methods and the experimental results for 10.5- and 20.5-µm-diameter ring and disk resonators to show the feasibility of such devices.
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WAVEGUIDE-COUPLED ALGAAS/GAAS MICROCAVITY RING AND DISK RESONATORS WITH HIGH FINESSE AND 21.6-NM Free Spectral Range
Optics letters, 1997Co-Authors: D. Rafizadeh, J.p. Zhang, S. C. Hagness, Allen Taflove, K. A. Stair, Richard C. TiberioAbstract:We report the realization and demonstration of novel semiconductor waveguide-coupled microcavity ring and disk resonators. For a 10.5-microm-diameter disk resonator, we measure a finesse of 120, a resonant linewidth of 0.18 nm, and a Free-Spectral Range of 21.6 nm in the 1.55-mum-wavelength region. We present the nanofabrication methods and the experimental results for 10.5- and 20.5-mum-diameter ring and disk resonators to show the feasibility of such devices.
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Nanofabricated waveguide-coupled 1.5-µm microcavity ring and disk resonators with high Q and 21.6-nm Free Spectral Range
1997Co-Authors: D. Rafizadeh, J.p. Zhang, S. C. Hagness, Allen Taflove, K. A. Stair, Richard C. TiberioAbstract:We report the first realization of waveguide-coupled AlGaAs/GaAs ring and disk microcavity resonators with 21.6-nm Free Spectral Range and finesse of 120, We present the nanofabrication methods and the experimental results.
