Search Results - "PINGUET, T"

Optical parametric oscillation in quasi-phase-matched GaAs by Vodopyanov, K.L., Levi, O., Kuo, P.S., Pinguet, T.J., Harris, J.S., Fejer, M.M., Gerard, B., Becouarn, L., Lallier, E.

“…We demonstrate a GaAs based OPO. The singly resonant, pulsed OPO utilized an all-epitaxially-grown orientation-patterned GaAs (OP-GaAs) crystal. By tuning…”
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All-epitaxial fabrication of thick, orientation-patterned GaAs films for nonlinear optical frequency conversion by Eyres, L. A., Tourreau, P. J., Pinguet, T. J., Ebert, C. B., Harris, J. S., Fejer, M. M., Becouarn, L., Gerard, B., Lallier, E.

“…Orientation-patterned GaAs (OPGaAs) films of 200 μm thickness have been grown by hydride vapor phase epitaxy (HVPE) on an orientation-patterned template…”
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High-speed silicon photonics optical transceivers by Mekis, A., Armijo, G., Balardeta, J., Barabas, S., Chase, B., Chi, Y., Dahl, A., De Koninck, Y., Denton, S., Eker, M., Fathpour, S., Foltz, D., Gholami, F., Gloeckner, S., Hon, K. Y., Hovey, S., Jackson, S., Li, W., Liang, Y., Mack, M., Masini, G., McGee, G., Pang, S., Peterson, M., Pinguet, T., Planchon, L., Roberson, K., Sahni, S., Schramm, J., Sharp, M., Sohn, C., Stechschulte, K., Sun, P., Vastola, G., Wang, S., Wong, G., Xu, K., Yokoyama, K., Yu, S., Zhou, R., De Dobbelaere, P.

“…We discuss key design elements that enable highspeed optical transceivers based on Luxtera's hybrid integrated silicon photonics platform…”
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Template design and fabrication for low-loss orientation-patterned nonlinear AlGaAs waveguides pumped at 1.55 μm by Yu, X., Scaccabarozzi, L., Levi, O., Pinguet, T.J., Fejer, M.M., Harris, J.S.

“…Orientation-patterned GaAs templates and Al x Ga 1− x As waveguides were grown using molecular beam epitaxy technique for nonlinear optical wavelength…”
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Compacting High-End Computing Systems with Dense, WDM Silicon Photonic Interconnects by Krishnamoorthy, A V, Zheng, X, Li, G, Dong, P, Feng, D, Pinguet, T, Mekis, A, Schwetman, H, Lexau, J, Patil, D, Liu, F, Koka, P, McCracken, M, Shubin, I, Thacker, H, Luo, Y, Raj, K, Mitchell, J G, Ho, R, Asghari, M, Cunningham, J E

“…The talk will present the design of a silicon microsystem that utilizes photonic interconnects to enable a highly compact supercomputer-scale system. Recent…”
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The application of quasi-phase-matched parametric light sources to practical infrared chemical sensing systems by Kulp, T.J., Bisson, S.E., Bambha, R.P., Reichardt, T.A., Goers, U.-B., Aniolek, K.W., Kliner, D.A.V., Richman, B.A., Armstrong, K.M., Sommers, R., Schmitt, R., Powers, P.E., Levi, O., Pinguet, T., Fejer, M., Koplow, J.P., Goldberg, L., McRae, T.G.

“…Quasi-phase-matched (QPM) materials allow the generation of spectroscopically useful infrared radiation in an efficient and broadly tunable format. Here, we…”
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A Grating-Coupler-Enabled CMOS Photonics Platform by Mekis, A, Gloeckner, S, Masini, G, Narasimha, A, Pinguet, T, Sahni, S, De Dobbelaere, P

“…We have developed a silicon photonics platform that allows monolithic integration with electronic circuits in a CMOS-compatible process. In this platform,…”
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A multi-wavelength 3D-compatible silicon photonics platform on 300mm SOI wafers for 25Gb/s applications by Boeuf, F., Cremer, S., Vulliet, N., Pinguet, T., Mekis, A., Masini, G., Verslegers, L., Sun, P., Ayazi, A., Hon, N-K, Sahni, S., Chi, Y., Orlando, B., Ristoiu, D., Farcy, A., Leverd, F., Broussous, L., Pelissier-Tanon, D., Richard, C., Pinzelli, L., Beneyton, R., Gourhant, O., Gourvest, E., Le-Friec, Y., Monnier, D., Brun, P., Guillermet, M., Benoit, D., Haxaire, K., Manouvrier, J. R., Jan, S., Petiton, H., Carpentier, J. F., Quemerais, T., Durand, C., Gloria, D., Fourel, M., Battegay, F., Sanchez, Y., Batail, E., Baron, F., Delpech, P., Salager, L., De Dobbelaere, P., Sautreuil, B.

“…Recently Silicon Photonics has generated an outstanding interest for integrated optical communications. In this paper we describe a 300mm Silicon Photonics…”
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Low cost 300mm double-SOI substrate for low insertion loss 1D & 2D grating couplers by Baudot, C., Dutartre, D., Souhaite, A., Vulliet, N., Jones, A., Ries, M., Mekis, A., Verslegers, L., Sun, P., Chi, Y., Cremer, S., Gourhant, O., Benoit, D., Courgoulet, G., Perrot, C., Broussous, L., Pinguet, T., Siniviant, J., Boeuf, F.

“…We report low insertion loss single polarization and polarization splitting grating couplers obtained on a 300mm silicon photonics platform through the…”
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A CMOS photonics platform for high-speed optical interconnects by Mekis, A., Abdalla, S., Foltz, D., Gloeckner, S., Hovey, S., Jackson, S., Liang, Y., Mack, M., Masini, G., Peterson, M., Pinguet, T., Sahni, S., Sharp, M., Sun, P., Tan, D., Verslegers, L., Welch, B. P., Yokoyama, K., Yu, S., De Dobbelaere, P. M.

“…We review a technology platform that enables monolithic integration of optical and electronic circuits in a mainstream CMOS process and demonstrate a grating…”
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Recent progress in Silicon Photonics R&D and manufacturing on 300mm wafer platform by Boeuf, F., Cremer, S., Temporiti, E., Fere, M., Shaw, M., Vulliet, N., Orlando, B., Ristoiu, D., Farcy, A., Pinguet, T., Mekis, A., Masini, G., Sun, P., Chi, Y., Petiton, H., Jan, S., Manouvrier, J. R., Baudot, C., Le Maitre, P., Carpentier, J.-F, Salager, L., Traldi, M., Maggi, L., Rigamonti, D., Zaccherini, C., Elemi, C., Sautreuil, B., Verga, L.

“…A low cost 28Gbits/s Silicon Photonics platform using 300mm SOI wafers is demonstrated. Process, 3D integration of Electronic and Photonic ICs, device…”
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Progress in Low-Power Switched Optical Interconnects by Krishnamoorthy, A V, Goossen, K W, Jan, W, Xuezhe Zheng, Ho, Ron, Guoliang Li, Rozier, R, Liu, F, Patil, D, Lexau, J, Schwetman, H, Dazeng Feng, Asghari, M, Pinguet, T, Cunningham, J E

“…Optical links have successfully displaced electrical links when their aggregated bandwidth-distance product exceeds ~100 Gb/s-m because their link energy per…”
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Advanced silicon photonic transceivers by Pinguet, T., Armijo, G., Balardeta, J., Barabas, S., Chase, B., Chi, Y., Dahl, A., De Dobbelaere, P., De Koninck, Y., Denton, S., Eker, M., Fathpour, S., Foltz, D., Gholami, F., Gloeckner, S., Hon, K. Y., Hovey, S., Jackson, S., Li, W., Liang, Y., Mack, M., Masini, G., McGee, G., Mekis, A., Pang, S., Peterson, M., Planchon, L., Roberson, K., Sahni, S., Schramm, J., Sharp, M., Sohn, C., Stechschulte, K., Sun, P., Vastola, G., Wang, S., Wong, G., Xu, K., Yokoyama, K., Yu, S., Zhou, R.

“…We report on the development of Luxtera's silicon photonics platform for the production of high-speed optical transceivers using a hybrid-integrated approach…”
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Integration and Packaging of a Macrochip With Silicon Nanophotonic Links by Cunningham, J E, Krishnamoorthy, A V, Ron Ho, Shubin, I, Thacker, H, Lexau, J, Lee, D C, Dazeng Feng, Chow, E, Ying Luo, Xuezhe Zheng, Guoliang Li, Jin Yao, Pinguet, T, Raj, K, Asghari, M, Mitchell, J G

“…The technologies associated with integration and packaging have a significant impact on the overall system. In this paper, we review a silicon photonic…”
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Silicon photonics transceivers for high speed optical interconnect by De Dobbelaere, P., Armijo, G., Balardeta, J., Barabas, S., Chase, B., Chi, Y., Dahl, A., De Koninck, Y., Denton, S., Eker, M., Fathpour, S., Foltz, D., Gholami, F., Gloeckner, S., Hon, K. Y., Hovey, S., Jackson, S., Li, W., Liang, Y., Mack, M., Masini, G., McGee, G., Mekis, A., Pang, S., Peterson, M., Pinguet, T., Planchon, L., Roberson, K., Sahni, S., Schramm, J., Sharp, M., Sohn, C., Stechschulte, K., Sun, P., Vastola, G., Wang, S., Wong, G., Xu, Yokoyama, K., Yu, S., Zhou, R.

“…In this paper we address key design and performance aspects of high-speed optical transceivers based on silicon photonics technology…”
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Dense WDM silicon photonic interconnects for compact high-end computing systems by Krishnamoorthy, A V, Zheng, X, Li, G, Dong, P, Feng, D, Pinguet, T, Mekis, A, Schwetman, H, Lexau, J, Patil, D, Liu, F, Koka, P, McCracken, M, Shubin, I, Thacker, H, Luo, Y, Raj, K, Ho, R, Asghari, M, Cunningham, J E, Mitchell, J G

“…We present the design of a silicon microsystem that utilizes dense, low-power photonic interconnects to enable a highly-compact supercomputer-scale system. We…”
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Low-power photonic links: Breaking the picojoule-per-bit barrier by Krishnamoorthy, A V, Ho, R, Zheng, X, Li, G, Cunningham, J E, Feng, D, Dong, P, Pinguet, T, Mekis, A, Schwetman, H, Lexau, J, Patil, D, Liu, F, Koka, P, McCracken, M, Shubin, I, Thacker, H, Yao, J, Luo, Y, Raj, K, Asghari, M, Mitchell, J G

“…We review the potential benefits and challenges for achieving optical-interconnects to the chip via the native integration of silicon photonics components with…”
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Silicon photonics multicore transceivers by Pinguet, T., De Dobbelaere, P. M., Foltz, D., Gloeckner, S., Hovey, S., Yi Liang, Mack, M., Masini, G., Mekis, A., Peterson, M., Sahni, S., Schramm, J., Sharp, M., Song, D., Welch, B. P., Yokoyama, K., Shuhuan Yu

“…We examine how the continued increase of single channel data rates combined with spatial multiplexing enabled by multi-core fibers will lead to the aggressive…”
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A Fully Integrated 4 × 10-Gb/s DWDM Optoelectronic Transceiver Implemented in a Standard 0.13 [mu]m CMOS SOI Technology by Narasimha, A, Analui, B, Liang, Y, Sleboda, T.J, Abdalla, S, Balmater, E, Gloeckner, S, Guckenberger, D, Harrison, M, Koumans, R.G.M.P, Kucharski, D, Mekis, A, Mirsaidi, S, Song, Dan, Pinguet, T

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A Fully Integrated 4 x 10-Gb/s DWDM Optoelectronic Transceiver Implemented in a Standard 0.13 [mu]m CMOS SOI Technology by Narasimha, A, Analui, B, Liang, Y, Sleboda, T J, Abdalla, S, Balmater, E, Gloeckner, S, Guckenberger, D, Harrison, M, Koumans, R.G.M.P., Kucharski, D, Mekis, A, Mirsaidi, S, Song, Dan, Pinguet, T

“…Optical and electronic building blocks required for DWDM transceivers have been integrated in a 0.13 mum CMOS SOI technology. Using these building blocks, a 4…”
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