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  • InAs-based Interband Cascade Lasers

    R. Q. Yang, L. Li, W. Huang, S.M.S. Rassel, J. A. Gupta, A. Bezinger, X. Wu, S.G. RazavipourG. C. Aers, “InAs-based Interband Cascade Lasers” (invited), IEEE J. Selected Topics Quantum Electronics, 25, No. 6, 1200108 (2019).

  • A Unified Figure of Merit for Interband and Intersubband Cascade Devices

    W. Huang, S. Rassel, L. Li, J. Massengale, R. Q. Yang, T. D. Mishima, M. B. Santos, “A Unified Figure of Merit for Interband and Intersubband Cascade Devices”, Infrared Physics and Technology, 96, 298-302 (2019).

  • Enhanced Collection Efficiencies and Performance of Interband Cascade Structures for Narrow Bandgap Semiconductor Thermophotovoltaic Devices

    W. Huang, L. Lei, L. Li, J. A. Massengale, R. Q. Yang, T. D. Mishima, M. B. Santos, “Enhanced Collection Efficiencies and Performance of Interband Cascade Structures for Narrow Bandgap Semiconductor Thermophotovoltaic Devices”, J. Appl. Phys. 124 (2), 023101 (2018).

  • Minority carrier lifetime in mid-wavelength interband cascade infrared photodetectors

    W. Huang, L. Li, L. Lei, J. A. Massengale, H. Ye, R. Q. Yang, T. D. Mishima, M. B. Santos, “Minority carrier lifetime in mid-wavelength interband cascade infrared photodetectors”, Appl. Phys. Lett. 112 (25), 251107 (2018).

  • Electrical gain in interband cascade infrared photodetectors

    W. Huang, L. Li, L. Lei, J. A. Massengale, R. Q. Yang, T. D. Mishima, M. B. Santos, “Electrical gain in interband cascade infrared photodetectors”, J. Appl. Phys. 123 (11), 113104 (2018).

  • High temperature and low threshold interband cascade lasers at wavelengths longer than 6 μm

    S.M.S. Rassel, L. Li, Y. Li, R. Q. Yang, J. A. Gupta, X. Wu, G. C. Aers, “High temperature and low threshold interband cascade lasers at wavelengths longer than 6 μm”, Optical Engineering, 57 (1), 011021 (2018).

  • Mid-wavelength interband cascade infrared photodetectors with superlattice absorbers and gain

    L. Lei, L. Li, H. Lotfi, H. Ye, R. Q. Yang, T. D. Mishima, M. B. Santos, M. B. Johnson, “Mid-wavelength interband cascade infrared photodetectors with superlattice absorbers and gain,” Optical Engineering, 57 (1),  011006 (2018).

  • Resonant tunneling and multiple negative differential conductance features in long wavelength interband cascade infrared photodetectors

    L. Lei, L. Li, W. Huang, J. A. Massengale, H. Ye, H. Lotfi, R. Q. Yang, T. D. Mishima, M. B. Santos, M. B. Johnson, “Resonant tunneling and multiple negative differential conductance features in long wavelength interband cascade infrared photodetectors”, Appl. Phys. Lett. 111 (11), 113504 (2017).

  • Current-matching versus non-current-matching in long wavelength interband cascade infrared photodetectors

    W. Huang, L. Lei, L. Li, J. A. Massengale, R. Q. Yang, T. D. Mishima, M. B. Santos, “Current-matching versus non-current-matching in long wavelength interband cascade infrared photodetectors”, J. Appl. Phys. 122 (8), 083102 (2017).

  • Narrow-Bandgap Interband Cascade Thermophotovoltaic Cells

    H. Lotfi, L. Li, L. Lei, R. Q. Yang, J. F. Klem and M. B. Johnson, “Narrow-Bandgap Interband Cascade Thermophotovoltaic Cells,” in IEEE Journal of Photovoltaics, vol. 7, no. 5, pp. 1462-1468, Sept. 2017, doi: 10.1109/JPHOTOV.2017.2713415.