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Low-threshold InAs-based interband cascade lasers operating at high temperatures
L. Li, Y. Jiang, H. Ye, R. Q. Yang, T. D. Mishima, M.B. Santos, and M. B. Johnson, “Low-threshold InAs-based interband cascade lasers operating at high temperatures,” Appl. Phys. Lett, 106, 251102 (2015).
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High temperature operation of interband cascade infrared photodetectors with cutoff wavelengths near 8 μm
H. Lotfi, L. Lei, L. Li, R. Q. Yang, J. C. Keay, M. B. Johnson, Y. Qiu, D. Lubyshev, J. M. Fastenau, and A. W. K. Liu, “High temperature operation of interband cascade infrared photodetectors with cutoff wavelengths near 8 μm,” Optical Engineering, 54, 063103 (2015).
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MBE Growth MBE Grown Long-wavelength Interband Cascade Lasers on InAs Substrates
L. Li, H. Ye, Y. Jiang, R. Q. Yang, J. C. Keay, T. D. Mishima, M.B. Santos, and M. B. Johnson, “MBE Growth MBE Grown Long-wavelength Interband Cascade Lasers on InAs Substrates,” J. Crystal Growth, 425, 369-372 (2015).
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Nanoscopically resolved dynamic charge-carrier distribution in operating interband cascade lasers
R. S. Dhar, L. Li, H. Ye, S. G. Razavipour, X. Wang, Rui Q. Yang, and D. Ban, “Nanoscopically resolved dynamic charge-carrier distribution in operating interband cascade lasers”, Laser Photonics Rev., 9, No.2, 224-230 (2015) / DOI 10.1002/lpor.201400143.
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Type-I interband cascade lasers near 3.2 μm
Y. Jiang, L. Li, R. Q. Yang, J. A. Gupta, G. C. Aers, E. Dupont, J. Baribeau, X. Wu and M. B. Johnson “Type-I interband cascade lasers near 3.2 μm”, Appl. Phys. Lett., 106, 041117 (2015).
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Theoretical Comparison of Performance Limits of Single- and Multiple-Stage Photovoltaic Devices
R. T. Hinkey, R. Q. Yang, “Theoretical Comparison of Performance Limits of Single- and Multiple-Stage Photovoltaic Devices”, Semicond. Sci. Technol, 30, 015013 (2015).
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Interband cascade infrared photodetectors with long and very-long cutoff wavelengths
H. Lotfi, L. Li, H. Ye, R. T. Hinkey, L. Lei, R. Q. Yang, J. C. Keay, T. D. Mishima, M. B. Santos, M. B. Johnson, “Interband cascade infrared photodetectors with long and very-long cutoff wavelengths”, Infrared Physics and Technology, 70, 162-167 (2014).
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Interband cascade lasers: from original concept to practical devices
R. Q. Yang, L. Li, Y. Jiang, “Interband cascade lasers: from original concept to practical devices” (review article), Prog. in Physics, 34, No. 4, 169-190 (2014) [带间级联激光器:从原始概念到实际器件,《物理学进展》, 34 (4): 169-190 (2014)].
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Electrically widely tunable interband cascade lasers
20. Y. Jiang, L. Li, Z. Tian, H. Ye, L. Zhao, R. Q. Yang, T. D. Mishima, M. B. Santos, M. B. Johnson, and K. Mansour “Electrically widely tunable interband cascade lasers”, J. Appl. Phys. 115, 113101 (2014).
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Multistage interband cascade photovoltaic devices with a bandgap of ~0.23 eV operating above room temperature
H. Ye, H. Lotfi, L. Li, R. T. Hinkey, R. Q. Yang, L. Lei, J. C. Keay, M. B. Johnson, T.D. Mishima, and M. B. Santos, “Multistage interband cascade photovoltaic devices with a bandgap of ~0.23 eV operating above room temperature” Chinese Science Bulletin 59, 950-955 (2014).