Room temperature continuous wave, monolithic tunable THz sources based on highly efficient mid-infrared quantum cascade lasers Q Lu, D Wu, S Sengupta, S Slivken, M Razeghi Scientific reports 6 (1), 23595, 2016 | 135 | 2016 |
Recent progress of quantum cascade laser research from 3 to 12 μm at the Center for Quantum Devices M Razeghi, W Zhou, S Slivken, QY Lu, D Wu, R McClintock Applied optics 56 (31), H30-H44, 2017 | 75 | 2017 |
1.58 μm InGaAs quantum well laser on GaAs I Tångring, HQ Ni, BP Wu, DH Wu, YH Xiong, SS Huang, ZC Niu, ... Applied Physics Letters 91 (22), 2007 | 75 | 2007 |
Room temperature terahertz semiconductor frequency comb Q Lu, F Wang, D Wu, S Slivken, M Razeghi Nature communications 10 (1), 2403, 2019 | 70 | 2019 |
High-power, continuous-wave, phase-locked quantum cascade laser arrays emitting at 8 µm W Zhou, QY Lu, DH Wu, S Slivken, M Razeghi Optics express 27 (11), 15776-15785, 2019 | 68 | 2019 |
Monolithically, widely tunable quantum cascade lasers based on a heterogeneous active region design W Zhou, N Bandyopadhyay, D Wu, R McClintock, M Razeghi Scientific reports 6 (1), 25213, 2016 | 65 | 2016 |
Mid-wavelength infrared high operating temperature pBn photodetectors based on type-II InAs/InAsSb superlattice D Wu, J Li, A Dehzangi, M Razeghi AIP advances 10 (2), 2020 | 63 | 2020 |
GaAs-based room-temperature continuous-wave 1.59 μm GaInNAsSb single-quantum-well laser diode grown by molecular-beam epitaxy ZC Niu, SY Zhang, HQ Ni, DH Wu, H Zhao, HL Peng, YQ Xu, SY Li, ZH He, ... Applied Physics Letters 87 (23), 2005 | 51 | 2005 |
Low threshold current density 1.3 µm metamorphic InGaAs/GaAs quantum well laser diodes D Wu, H Wang, B Wu, H Ni, S Huang, Y Xiong, P Wang, Q Han, Z Niu, ... Electronics Letters 44 (7), 1, 2008 | 47 | 2008 |
High quantum efficiency mid-wavelength infrared type-II InAs/InAs1− xSbx superlattice photodiodes grown by metal-organic chemical vapor deposition D Wu, Q Durlin, A Dehzangi, Y Zhang, M Razeghi Applied Physics Letters 114 (1), 2019 | 40 | 2019 |
Type–II superlattices base visible/extended short–wavelength infrared photodetectors with a bandstructure–engineered photo–generated carrier extractor A Dehzangi, R McClintock, A Haddadi, D Wu, R Chevallier, M Razeghi Scientific reports 9 (1), 5003, 2019 | 37 | 2019 |
Shortwave quantum cascade laser frequency comb for multi-heterodyne spectroscopy MR Q. Y. Lu, S. Manna, D. H. Wu, S. Slivken Applied physics Letter 112 (14), 141104, 2018 | 37 | 2018 |
Antimonite-based gap-engineered type-II superlattice materials grown by MBE and MOCVD for the third generation of infrared imagers M Razeghi, A Dehzangi, D Wu, R McClintock, Y Zhang, Q Durlin, J Li, ... Infrared Technology and Applications XLV 11002, 108-125, 2019 | 35 | 2019 |
Demonstration of long wavelength infrared Type-II InAs/InAs1-xSbx superlattices photodiodes on GaSb substrate grown by metalorganic chemical vapor deposition MR D. H. Wu, A. Dehzangi, Y. Y. Zhang Applied physics Letter 112 (24), 241103, 2018 | 35 | 2018 |
High performance monolithic, broadly tunable mid-infrared quantum cascade lasers W Zhou, D Wu, R McClintock, S Slivken, M Razeghi Optica 4 (10), 1228-1231, 2017 | 35 | 2017 |
High power, low divergent, substrate emitting quantum cascade ring laser in continuous wave operation DH Wu, M Razeghi APL Materials 5 (3), 2017 | 34 | 2017 |
Room temperature quantum cascade lasers with 22% wall plug efficiency in continuous-wave operation F Wang, S Slivken, DH Wu, M Razeghi Optics Express 28 (12), 17532-17538, 2020 | 33 | 2020 |
High efficiency quantum cascade laser frequency comb Q Lu, D Wu, S Slivken, M Razeghi Scientific Reports 7 (1), 43806, 2017 | 33 | 2017 |
Demonstration of mid-wavelength infrared nBn photodetectors based on type-II InAs/InAs1-xSbx superlattice grown by metal-organic chemical vapor deposition D Wu, A Dehzangi, M Razeghi Applied Physics Letters 115 (6), 2019 | 31 | 2019 |
Extended short wavelength infrared heterojunction phototransistors based on type II superlattices A Dehzangi, R McClintock, D Wu, A Haddadi, R Chevallier, M Razeghi Applied Physics Letters 114 (19), 2019 | 30 | 2019 |