| Crosstalk-free signal source for dense wavelength division multiplexed systems T Brenner, PA Morton, DX Zhu US Patent 6,233,080, 2001 | 294 | 2001 |
| Actively mode-locked semiconductor lasers JE Bowers, PA Morton, A Mar, SW Corzine IEEE Journal of Quantum Electronics 25 (6), 1426-1439, 1989 | 265 | 1989 |
| Wide-bandwidth continuously tunable optical delay line using silicon microring resonators J Cardenas, MA Foster, N Sherwood-Droz, CB Poitras, HLR Lira, B Zhang, ... Optics express 18 (25), 26525-26534, 2010 | 197 | 2010 |
| High-power sub-kHz linewidth lasers fully integrated on silicon D Huang, MA Tran, J Guo, J Peters, T Komljenovic, A Malik, PA Morton, ... Optica 6 (6), 745-752, 2019 | 191 | 2019 |
| High-performance lasers for fully integrated silicon nitride photonics C Xiang, J Guo, W Jin, L Wu, J Peters, W Xie, L Chang, B Shen, H Wang, ... Nature communications 12 (1), 6650, 2021 | 177 | 2021 |
| Comparison of timing jitter in external and monolithic cavity mode‐locked semiconductor lasers DJ Derickson, PA Morton, JE Bowers, RL Thornton Applied Physics Letters 59 (26), 3372-3374, 1991 | 177 | 1991 |
| High coupling efficiency etched facet tapers in silicon waveguides J Cardenas, CB Poitras, K Luke, LW Luo, PA Morton, M Lipson IEEE Photonics Technology Letters 26 (23), 2380-2382, 2014 | 172 | 2014 |
| Narrow-linewidth III-V/Si/Si3N4 laser using multilayer heterogeneous integration C Xiang, W Jin, J Guo, JD Peters, MJ Kennedy, J Selvidge, PA Morton, ... Optica 7 (1), 20-21, 2020 | 164 | 2020 |
| Ring-resonator based widely-tunable narrow-linewidth Si/InP integrated lasers MA Tran, D Huang, J Guo, T Komljenovic, PA Morton, JE Bowers IEEE Journal of Selected Topics in Quantum Electronics 26 (2), 1-14, 2019 | 158 | 2019 |
| 25 GHz bandwidth 1.55 μm GaInAsP p-doped strained multiquantum-well lasers PA Morton, RA Logan, T Tanbun-Ek, PF Sciortino Jr, AM Sergent, ... Electronics Letters 28 (23), 2156-2157, 1992 | 137 | 1992 |
| Stable single mode hybrid laser with high power and narrow linewidth PA Morton, V Mizrahi, T Tanbun‐Ek, RA Logan, PJ Lemaire, HM Presby, ... Applied Physics Letters 64 (20), 2634-2636, 1994 | 133 | 1994 |
| Mode-locked hybrid soliton pulse source with extremely wide operating frequency range PA Morton, V Mizrahi, PA Andrekson, T Tanbun-Ek, RA Logan, P Lemaire, ... IEEE Photonics Technology Letters 5 (1), 28-31, 1993 | 131 | 1993 |
| Frequency response subtraction for simple measurement of intrinsic laser dynamic properties PA Morton, T Tanbun-Ek, RA Logan, AM Sergent, PF Sciortino, ... IEEE photonics technology letters 4 (2), 133-136, 1992 | 129 | 1992 |
| Analysis of gain in determining T/sub 0/in 1.3/spl mu/m semiconductor lasers DA Ackerman, GE Shtengel, MS Hybertsen, PA Morton, RF Kazarinov, ... IEEE Journal of Selected Topics in Quantum Electronics 1 (2), 250-263, 2002 | 122 | 2002 |
| Dynamically reconfigurable integrated optical circulators D Huang, P Pintus, C Zhang, P Morton, Y Shoji, T Mizumoto, JE Bowers Optica 4 (1), 23-30, 2016 | 112 | 2016 |
| High-power, ultra-low noise hybrid lasers for microwave photonics and optical sensing PA Morton, MJ Morton Journal of Lightwave Technology 36 (21), 5048-5057, 2018 | 106 | 2018 |
| 38.5 km error free transmission at 10 Gbit/s in standard fibre using a low chirp, spectrally filtered, directly modulated 1.55 µm DFB laser PA Morton, GE Shtengel, LD Tzeng, RD Yadvish, T Tanbun-Ek, RA Logan Electronics Letters 33 (4), 310-311, 1997 | 104 | 1997 |
| Ultra-narrow linewidth laser based on a semiconductor gain chip and extended Si3N4 Bragg grating C Xiang, PA Morton, JE Bowers Optics letters 44 (15), 3825-3828, 2019 | 101 | 2019 |
| Linearized silicon modulator based on a ring assisted Mach Zehnder inteferometer J Cardenas, PA Morton, JB Khurgin, A Griffith, CB Poitras, K Preston, ... Optics express 21 (19), 22549-22557, 2013 | 100 | 2013 |
| Monolithic hybrid mode‐locked 1.3 μm semiconductor lasers PA Morton, JE Bowers, LA Koszi, M Soler, J Lopata, DP Wilt Applied physics letters 56 (2), 111-113, 1990 | 92 | 1990 |
John BowersProfessor of Electrical and Computer Engineering, UCSBDirección de correo verificada de ece.ucsb.edu
