| Continuous-wave optically pumped 1.55 μm InAs/InAlGaAs quantum dot microdisk lasers epitaxially grown on silicon B Shi, S Zhu, Q Li, Y Wan, EL Hu, KM Lau ACS Photonics, 2017 | 62 | 2017 |
| 1.55 μ m room-temperature lasing from subwavelength quantum-dot microdisks directly grown on (001) Si B Shi, S Zhu, Q Li, CW Tang, Y Wan, EL Hu, KM Lau Applied Physics Letters 110 (12), 121109, 2017 | 60 | 2017 |
| 1.5 μm quantum-dot diode lasers directly grown on CMOS-standard (001) silicon S Zhu, B Shi, Q Li, KM Lau Applied Physics Letters 113 (22), 2018 | 59 | 2018 |
| Continuous-wave electrically pumped 1550 nm lasers epitaxially grown on on-axis (001) silicon B Shi, H Zhao, L Wang, B Song, STS Brunelli, J Klamkin Optica 6 (12), 1507-1514, 2019 | 50 | 2019 |
| InAs/GaAs quantum dots on GaAs-on-V-grooved-Si substrate with high optical quality in the 1.3 μm band Y Wan, Q Li, Y Geng, B Shi, KM Lau APPLIED PHYSICS LETTERS 107 (8), 081106, 2015 | 50 | 2015 |
| MOCVD grown low dislocation density GaAs-on-V-groove patterned (001) Si for 1.3 μm quantum dot laser applications B Shi, L Wang, AA Taylor, S Suran Brunelli, H Zhao, B Song, J Klamkin Applied Physics Letters 114 (17), 2019 | 49 | 2019 |
| Room-temperature electrically-pumped 1.5 μm InGaAs/InAlGaAs laser monolithically grown on on-axis (001) Si S Zhu, B Shi, Q Li, KM Lau Optics express 26 (11), 14514-14523, 2018 | 46 | 2018 |
| 1.55 µm electrically pumped continuous wave lasing of quantum dash lasers grown on silicon Y Xue, W Luo, S Zhu, L Lin, B Shi, KM Lau Optics Express 28 (12), 18172-18179, 2020 | 43 | 2020 |
| Defect engineering for high quality InP epitaxially grown on on-axis (001) Si B Shi, J Klamkin Journal of Applied Physics 127 (3), 2020 | 39 | 2020 |
| 1.55-μm lasers epitaxially grown on silicon B Shi, Y Han, Q Li, KM Lau IEEE Journal of Selected Topics in Quantum Electronics 25 (6), 1-11, 2019 | 39 | 2019 |
| Self-organized InAs/InAlGaAs quantum dots as dislocation filters for InP films on (001) Si B Shi, Q Li, KM Lau Journal of Crystal Growth 464, 28-32, 2017 | 39 | 2017 |
| Low threshold quantum dot lasers directly grown on unpatterned quasi-nominal (001) Si Y Wan, C Shang, J Norman, B Shi, Q Li, N Collins, M Dumont, KM Lau, ... IEEE Journal of Selected Topics in Quantum Electronics 26 (2), 1-9, 2020 | 33 | 2020 |
| Electrically pumped 1.5 μm InP-based quantum dot microring lasers directly grown on (001) Si S Zhu, B Shi, KM Lau Optics letters 44 (18), 4566-4569, 2019 | 29 | 2019 |
| Epitaxial growth of high quality InP on Si substrates: The role of InAs/InP quantum dots as effective dislocation filters B Shi, Q Li, KM Lau Journal of Applied Physics 123 (19), 2018 | 28 | 2018 |
| 1.55 μm band low-threshold, continuous-wave lasing from InAs/InAlGaAs quantum dot microdisks S Zhu, B Shi, Y Wan, E Hu, KM Lau Optics Letters 42 (4), 679-682, 2017 | 26 | 2017 |
| Enhanced optical properties of InAs/InAlGaAs/InP quantum dots grown by metal-organic chemical vapor deposition using a double-cap technique B Shi, KM Lau Journal of Crystal Growth 433 (19-23), 2016 | 21 | 2016 |
| Parametric study of high-performance 1.55 μm InAs quantum dot microdisk lasers on Si S Zhu, B Shi, Q Li, Y Wan, KM Lau Optics Express 25 (25), 31281-31293, 2017 | 17 | 2017 |
| Comparison of growth structures for continuous-wave electrically pumped 1.55 μm quantum dash lasers grown on (001) Si W Luo, Y Xue, J Huang, L Lin, B Shi, KM Lau Photonics Research 8 (12), 1888-1894, 2020 | 16 | 2020 |
| InAlGaAs/InAlAs MQWs on Si Substrate B Shi, Q Li, Y Wan, KW Ng, X Zou, CW Tang, KM Lau IEEE Photonics Technology Letters 27 (7), 748-751, 2015 | 15 | 2015 |
| Antiphase boundary free InP microridges on (001) silicon by selective area heteroepitaxy B Shi, A Goswami, AA Taylor, ST Suran Brunelli, C Palmstrøm, J Klamkin Crystal Growth & Design 20 (12), 7761-7770, 2020 | 14 | 2020 |
Kei May LauHong Kong University of Science & TechnologyVerified email at ust.hk
