Search Results - "Studenkov, P."

Current Status of Large-Scale InP Photonic Integrated Circuits by Kish, F. A., Welch, D., Nagarajan, R., Pleumeekers, J. L., Lal, V., Ziari, M., Nilsson, A., Kato, M., Murthy, S., Evans, P., Corzine, S. W., Mitchell, M., Samra, P., Missey, M., DeMars, S., Schneider, R. P., Reffle, M. S., Butrie, T., Rahn, J. T., Van Leeuwen, M., Stewart, J. W., Lambert, D. J., Muthiah, R. C., Tsai, H., Bostak, J. S., Dentai, A., Wu, K., Sun, H., Pavinski, D. J., Zhang, J., Tang, J., McNicol, J., Kuntz, M., Dominic, V., Taylor, B. D., Salvatore, R. A., Fisher, M., Spannagel, A., Strzelecka, E., Studenkov, P., Raburn, M., Williams, W., Christini, D., Thomson, K. K., Agashe, S. S., Malendevich, R., Goldfarb, G., Melle, S., Joyner, C., Kaufman, M., Grubb, S. G.

“…In this paper, the current state of the art for large-scale InP photonic integrated circuits (PICs) is reviewed with a focus on the devices and technologies…”
Get full text

1.12 Tb/s superchannel coherent PM-QPSK InP transmitter photonic integrated circuit (PIC) by Evans, P, Fisher, M, Malendevich, R, James, A, Goldfarb, G, Vallaitis, T, Kato, M, Samra, P, Corzine, S, Strzelecka, E, Studenkov, P, Salvatore, R, Sedgwick, F, Kuntz, M, Lal, V, Lambert, D, Dentai, A, Pavinski, D, Zhang, J, Cornelius, J, Tsai, T, Behnia, B, Bostak, J, Dominic, V, Nilsson, A, Taylor, B, Rahn, J, Sanders, S, Sun, H, Wu, K-T, Pleumeekers, J, Muthiah, R, Missey, M, Schneider, R, Stewart, J, Reffle, M, Butrie, T, Nagarajan, R, Ziari, M, Kish, F, Welch, D

“…In this work, a 10-wavelength, polarization-multiplexed, monolithically integrated InP coherent QPSK transmitter PIC is demonstrated to operate at 112 Gb/sec…”
Get full text

Low-threshold current, high-efficiency 1.3-μm wavelength aluminum-free InGaAsN-based quantum-well lasers by Gokhale, M.R., Studenkov, P.V., Wei, J., Forrest, S.R.

“…We demonstrate high-performance Al-free InGaAsN-GaAs-InGaP-based long-wavelength quantum-well (QW) lasers grown on GaAs substrates by gas-source molecular beam…”
Get full text

Efficient coupling in integrated twin-waveguide lasers using waveguide tapers by Studenkov, P.V., Gokhale, M.R., Forrest, S.R.

“…We demonstrate a 1.55-μm wavelength, InGaAsP-InP, twin-waveguide (TG) laser integrated with passive ridge waveguides using low-loss taper couplers. The lateral…”
Get full text

Fabrication of ultracompact 3-dB 2 x 2 MMI power splitters by Levy, D.S., Kyung Hyun Park, Scarmozzino, R., Osgood, R.M., Dries, C., Studenkov, P., Forrest, S.

“…Recently proposed tapered MMI devices have been shown to allow for substantial reductions in device geometries, but as of this time such ultracompact devices…”
Get full text

Monolithic integration of an all-optical Mach-Zehnder demultiplexer using an asymmetric twin-waveguide structure by Studenkov, P.V., Gokhale, M.R., Lin, W., Glesk, I., Prucnal, P.R., Forrest, S.R.

“…We demonstrate monolithic integration of a twin-waveguide Mach-Zehnder terahertz optical asymmetric demultiplexer (MZ-TOAD). The InGaAsP-InP device operates at…”
Get full text

Asymmetric twin-waveguide 1.55-μm wavelength laser with a distributed Bragg reflector by Studenkov, P.V., Xia, F., Gokhale, M.R., Forrest, S.R.

“…We demonstrate a single frequency, 1.55 μm wavelength laser based on an asymmetric twin-waveguide structure using a single growth step and a simple fabrication…”
Get full text

An asymmetric twin-waveguide high-bandwidth photodiode using a lateral taper coupler by Fengnian Xia, Thomson, J.K., Gokhale, M.R., Studenkov, P.V., Jian Wei, Lin, W., Forrest, S.R.

“…We describe a high-bandwidth high-responsivity low-polarization sensitivity p-i-n photodiode based on an integratable asymmetric twin-waveguide structure…”
Get full text

High-performance long-wavelength (/spl lambda//spl sim/1.3 μm) InGaAsPN quantum-well lasers by Gokhale, M.R., Wei, J., Studenkov, P.V., Wang, H., Forrest, S.R.

“…We demonstrate high-performance InGaAsPN quantum well based long-wavelength lasers grown on GaAs substrates, nitrogen containing lasers emitting in the /spl…”
Get full text

Current view of large scale photonic integrated circuits on indium phosphide by Lal, V, Evans, P, Corzine, S, Kato, M, Fisher, M, Gheorma, J, Dominic, V, Samra, P, Nilsson, A, Rahn, J, Dentai, A, Studenkov, P, Missey, M, Lambert, D, Muthiah, R, Salvatore, R, Murthy, S, Strzelecka, E, Pleumeekers, J, Chen, A, Schneider, R, Nagarajan, R, Ziari, M, Stewart, J, Joyner, C, Kish, F, Welch, D

“…We report on the current state of large-scale and high functionality photonic integrated circuits on the InP platform for transmitters, receivers, and other…”
Get full text

2\times 800 Gbps/wave Coherent Optical Module Using a Monolithic InP Transceiver PIC by Chitgarha, M. R., Studenkov, P., Zhang, J., Hodaei, H., Frost, T., Tsai, H., Buggaveeti, S., Rashidinejad, A., Yekani, A., Nejad, R. Mirzaei, Kerns, S., Diniz, J., Pavinski, D., Brigham, R., Foo, B., Al-Khateeb, M., Koenig, S., Wolf, S., Going, R., Porto, S., Leung, I., Maher, R., Dominic, V., Sun, H., Sanders, S., Osenbach, J., Corzine, S., Evans, P., Lal, V., Ziari, M.

“…We report on the development of a 2\times 800 Gbps/wave coherent module based on a monolithic InP transceiver PIC and real-time 7nm DSP ASIC capable of 800Gbps…”
Get full text

Monolithic integration of a quantum-well laser and an optical amplifier using an asymmetric twin-waveguide structure by Studenkov, P.V., Gokhale, M.R., Dries, J.C., Forrest, S.R.

“…We demonstrate the monolithic integration of a 1.55 μm wavelength InGaAsP-InP multiple-quantum-well (MQW) laser and a traveling-wave optical amplifier using an…”
Get full text

2-Channels × 100 GBd 32QAM Transmission over 500 km Enabled by InP PICs and SiGe ASICs by Wolf, S, Going, R, Porto, S, Xu, X, Maher, R, Studenkov, P, Lal, V, Tsai, H, Corzine, S, Zhang, J, Behnia, B, Di Giovanni, C, Vallaitis, T, Yan, J, Osenbach, J, Kuntz, M, Ellis, B, Frost, T, Pavinski, D, Mousavi, H, Buggaveeti, S, Hodaei, H, Wang, Z, Evans, P, Sanders, S, Rahn, J, Butrie, T, Ziari, M, Welch, D, Kish, F

“…We show 100 GBd 32QAM transmission enabled by hybrid integration of InP PICs featuring 40 kHz linewidth widely tunable lasers and SiGe electronics. A mean…”
Get full text

Multi-channel coherent PM-QPSK InP transmitter photonic integrated circuit (PIC) operating at 112 Gb/s per wavelength by Evans, P, Fisher, M, Malendevich, R, James, A, Studenkov, P, Goldfarb, G, Vallaitis, T, Kato, M, Samra, P, Corzine, S, Strzelecka, E, Salvatore, R, Sedgwick, F, Kuntz, M, Lal, V, Lambert, D, Dentai, A, Pavinski, D, Zhang, J, Behnia, B, Bostak, J, Dominic, V, Nilsson, A, Taylor, B, Rahn, J, Sanders, S, Sun, H, Wu, K.-T, Pleumeekers, J, Muthiah, R, Missey, M, Schneider, R, Stewart, J, Reffle, M, Butrie, T, Nagarajan, R, Joyner, C, Ziari, M, Kish, F, Welch, D

“…A 10-wavelength, polarization-multiplexed, monolithically integrated InP transmitter PIC is demonstrated for the first time to operate at 112 Gb/s per…”
Get full text

High-power high-efficiency 0.98-μm wavelength InGaAs-(In)GaAs(P)-InGaP broadened waveguide lasers grown by gas-source molecular beam epitaxy by GOKHALE, M. R, DRIES, J. C, STUDENKOV, P. V, FORREST, S. R, GARBUZOV, D. Z

Get full text

Monolithic integration of an InGaAsP-InP MQW laser/waveguide using a twin-guide structure with a mode selection layer by Xu, L., Gokhale, M.R., Studenkov, P., Dries, J.C., Chao, C.-P., Garbuzov, D., Forrest, S.R.

“…We demonstrate a monolithically integrated 1.55-μm wavelength InGaAsP-InP multiple-quantum-well (MQW) laser with a passive Y-branch waveguide in a vertical…”
Get full text

Data-center, metro and long-haul applications based on advanced photonic integrated circuits by Evans, P., Ziari, M., Lal, V., Corzine, S., Butrie, T., Missey, M., Pavinski, D., Tang, J., Summers, J., Studenkov, P., Hosseini, A., Vallaitas, T., Kuntz, M., Ko, W., Sedgwick, F., Fisher, M., Sai, H.-S, Zhang, J., Samra, P., Pleumeekers, J., Rahn, J., Dominic, V., Schindler, P., Schmogrow, R., Kumar, S., Mertz, P., Croussore, K., Sun, H., Wu, K.-T, Mitchell, M., Reffle, M., Kish, F., Welch, D.

“…We present data for long-haul, metro, and data-center applications using large scale Photonic Integrated Circuits (PICs) packaged in high capacity optical…”
Get full text

40 Channels × 57 Gb/s monolithically integrated InP-based coherent photonic transmitter by Summers, J., Vallaitis, T., Evans, P., Ziari, M., Studenkov, P., Fisher, M., Sena, J., James, A., Corzine, S., Pavinski, D., Yang, J. Ou, Missey, M., Gold, D., Lambert, D., Williams, W., Lai, M., Kish, F., Welch, D.

“…A dual-polarization QPSK transmitter is demonstrated with a record 40 tunable distributed feedback lasers, 80 nested Mach-Zehnder-modulators, and other…”
Get full text

Current view of large scale photonic integrated circuits on indium phosphide by Joyner, C, Evans, P, Corzine, S, Kato, M, Fisher, M, Gheorma, J, Dominic, V, Samra, P, Nilsson, A, Rahn, J, Dentai, A, Studenkov, P, Missey, M, Lambert, D, Muthiah, R, Salvatore, R, Murthy, S, Strzelecka, E, Pleumeekers, J, Chen, A, Schneider, R, Nagarajan, R, Ziari, M, Stewart, J, Kish, F, Welch, D

“…We report on the current state of large-scale and high functionality photonic integrated circuits on the InP platform for transmitters, receivers, and other…”
Get full text

Monolithic integration of laser and waveguide using a twin-guide structure with absorption layer by Studenkov, P., Gokhale, M., Xu, L., Dries, J.C., Chao, C.-P., Garbuzov, D., Forrest, S.R.

“…We demonstrate for the first time the use of absorption layer to achieve mode control in an InP/InGaAsP integrated twin-guide (TG) laser structure. The In/sub…”
Get full text