Personal
Information
Hong-Liang Cui, Professor of department of
Applied Physics, Polytechnic Institute of New York University.
Research Interest
Extensive R&D experience in Solid State
Electronics, Semiconductor physics and surface physics. Low-temperature
physics, superfluidity and superconductivity
Education
Background
1987 Ph.D. Changchun Institute of Optics
and Stevens Institute of Technology
1984 M.S. Changchun Institute of
Optics and Stevens Institute of Technology
1982 B.E. Changchun Institute of
Optics and Fine Mechanics
Publications
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Xiaoyang Huang, Bernard Rosen,
Hong-Liang Cui, “Photonic Bands in DNA Crystal-Based Frequency-Dependent Media”, IEEE
Sensors Journal, 10, 1820–1823 (2010)
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Tianying Chang, Koscica,
T.E., Li, D.Y., Lei Jia, Qingmei
Sui, Hong-Liang Cui, “A Novel Detection Method of Brillouin Backscattered Light in Optical
Fiber”, IEEE Sensors Journal, 9, 430 (2009)
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B. Dong, H.L. Cui, and X.L. Lei, “Pumped
spin-current and shot noise spectra in a single quantum dot”, Physical Review
Letters, 94, 066601 (2005)
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B. Dong, H.L. Cui, X.L. Lei, and N.J.
Horing, “Shot noise of inelastic tunneling through quantum dot systems”,
Physical Review B 72, 165326 (2005)
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A.S. Raspopin and H.L. Cui, “Domain theory
of self-induced transparency in a semiconductor superlattice”, Physical Review
B 68, 045305 (2003)
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Perez, H.L. Cui, and E. Udd, “Acoustic
Emission Detection Using Fiber Bragg Gratings”, Proceedings of SPIE, Vol. 4328,
pp. 209-215 (2001)
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M.A. Sanzari, H.L. Cui, and F. Karwacki, “The
London moment for heavy-fermion superconductors”, Applied Physics Letters,68,
3802-3804 (1996)
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X.L. Lei, H.L. Cui, N.J.M. Horing, and K.K.
Thornber, “Frequency limitation of negative differential mobility in vertical
conduction in superlattices”, Applied Physics Letters, 65, 2984 (1994)
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X.L. Lei, N.J. Horing, and H.L. Cui, “Theory
of negative differential conductivity in a superlattice miniband”, Physical
Review Letters, 66, 3277, (1991)
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H.L. Cui, V. Fessatidis, and N.J. Horing, “Commensurability
oscillations in magnetoplasmons of a density modulated two dimensional electron
gas”, Physical Review Letters 63, 2598 (1989)