Multi-micron silicon photonics platform for highly manufacturable and versatile photonic integrated circuits AJ Zilkie, P Srinivasan, A Trita, T Schrans, G Yu, J Byrd, DA Nelson, ... IEEE Journal of Selected Topics in Quantum Electronics 25 (5), 1-13, 2019 | 75 | 2019 |
Reimagining Datacenter Topologies With Integrated Silicon Photonics C Minkenberg, N Farrington, A Zilkie, D Nelson, CP Lai, D Brunina, J Byrd, ... Journal of Optical Communications and Networking 10 (7), B126-B139, 2018 | 70 | 2018 |
Copackaging of ASIC and silicon photonics GC Byrd, DA Nelson, J Messian, TP Schrans US Patent 10,365,436, 2019 | 39 | 2019 |
Copackaging of ASIC and silicon photonics GC Byrd, DA Nelson, J Messian, TP Schrans US Patent 10,365,436, 2019 | 39 | 2019 |
High Performance MEMS-Based Micro-optic Assembly for Multi-lane Transceivers B Pezeshki, J Heanue, D Ton, T Schrans, S Rangarajan, S Zou, G Yoffe, ... IEEE, 2013 | 37 | 2013 |
Subpicosecond (320 fs) pulses from CW passively mode-locked external cavity two-section multiquantum well lasers T Schrans, RA Salvatore, S Sanders, A Yariv Electronics Letters 28 (16), 1480-1482, 1992 | 27 | 1992 |
Semiconductor lasers with uniform longitudinal intensity distribution T Schrans, A Yariv Applied physics letters 56 (16), 1526-1528, 1990 | 24 | 1990 |
Timing jitter and pulse energy fluctuations in a passively mode‐locked two‐section quantum‐well laser coupled to an external cavity S Sanders, T Schrans, A Yariv, J Paslaski, JE Ungar, HA Zarem Applied physics letters 59 (11), 1275-1277, 1991 | 20 | 1991 |
Supermodes of high-repetition-rate passively mode-locked semiconductor lasers RA Salvatore, S Sanders, T Schrans, A Yariv IEEE journal of quantum electronics 32 (6), 941-952, 1996 | 19 | 1996 |
A wavelength-matching scheme for multiwavelength optical links and networks using grating demultiplexers F Tong, KP Ho, T Schrans, WE Hall, G Grand, P Mottier IEEE photonics technology letters 7 (6), 688-690, 1995 | 18 | 1995 |
Broad-band wavelength tunable picosecond pulses from CW passively mode-locked two-section multiple quantum-well lasers T Schrans, S Sanders, A Yariv IEEE photonics technology letters 4 (4), 323-326, 1992 | 18 | 1992 |
Wavelength tunable source of subpicosecond pulses from CW passively mode-locked two-section multiple-quantum-well laser RA Salvatore, T Schrans, A Yariv IEEE photonics technology letters 5 (7), 756-758, 1993 | 17 | 1993 |
100Gb/s 10km link performance of 10x10Gb/s hybrid approach with integrated WDM array of DFB lasers T Schrans, G Yoffe, Y Luo, R Narayan, S Rangarajan, D Hui, F Kusnadi, ... National Fiber Optic Engineers Conference, NThA4, 2009 | 12 | 2009 |
Systems and methods for wavelength locking in optical sensing systems A Bismuto, YKR Wu, T Schrans, A Trita, A Zilkie US Patent 11,064,592, 2021 | 10 | 2021 |
Optoelectronic module package GC Byrd, TP Schrans, CT Chou, A Abed, OJ Bchir US Patent App. 16/056,340, 2019 | 10 | 2019 |
Pulse characteristics of passively mode-locked diode lasers RA Salvatore, T Schrans, A Yariv Optics letters 20 (7), 737-739, 1995 | 10 | 1995 |
Tunable active chirped‐corrugation waveguide filters T Schrans, M Mittelstein, A Yariv Applied Physics Letters 55 (3), 212-214, 1989 | 10 | 1989 |
High speed, high performance laser module A Benzoni, M Downie, B Kasper, J Paslaski, E Peral, XM Wu, T Schrans, ... Electronic Components & Technology Conference, 2000. 2000 Proceedings …, 2000 | 9 | 2000 |
Copackaging of asic and silicon photonics GC Byrd, DA Nelson, J Messian, TP Schrans, CT Chou, K Muth US Patent 10,877,217, 2020 | 8 | 2020 |
Hybrid optoelectronic digitally tunable receiver K Liu, C Li, B Pezeshki, TP Schrans, A Stevens, FF Tong Photonics West'95, 104-114, 1995 | 8 | 1995 |