Vladimir Mitin
Vladimir Mitin
SUNY Distinguished Professor, University at Buffalo
Adresă de e-mail confirmată pe buffalo.edu
Citat de
Citat de
Quantum heterostructures: microelectronics and optoelectronics
VV Mitin, V Kochelap, MA Stroscio
Cambridge University Press, 1999
Terahertz surface plasmons in optically pumped graphene structures
AA Dubinov, VY Aleshkin, V Mitin, T Otsuji, V Ryzhii
Journal of Physics: Condensed Matter 23 (14), 145302, 2011
The physics of instabilities in solid state electron devices
HL Grubin, VV Mitin, E Schöll, MP Shaw
Springer Science & Business Media, 2013
Strong enhancement of solar cell efficiency due to quantum dots with built-in charge
KA Sablon, JW Little, V Mitin, A Sergeev, N Vagidov, K Reinhardt
Nano letters 11 (6), 2311-2317, 2011
Electron-phonon interaction in disordered conductors: Static and vibrating scattering potentials
A Sergeev, V Mitin
Physical Review B 61 (9), 6041, 2000
Electron relaxation times due to the deformation-potential interaction of electrons with confined acoustic phonons in a free-standing quantum well
N Bannov, V Aristov, V Mitin, MA Stroscio
Physical Review B 51 (15), 9930, 1995
Toward the creation of terahertz graphene injection laser
V Ryzhii, M Ryzhii, V Mitin, T Otsuji
Journal of Applied Physics 110 (9), 2011
Terahertz lasers based on optically pumped multiple graphene structures with slot-line and dielectric waveguides
V Ryzhii, AA Dubinov, T Otsuji, V Mitin, MS Shur
Journal of Applied Physics 107 (5), 2010
Electron‐optical‐phonon scattering rates in a rectangular semiconductor quantum wire
KW Kim, MA Stroscio, A Bhatt, R Mickevicius, VV Mitin
Journal of applied physics 70 (1), 319-327, 1991
Introduction to nanoelectronics: science, nanotechnology, engineering, and applications
VV Mitin, VA Kochelap, MA Stroscio
Cambridge University Press, 2008
The gain enhancement effect of surface plasmon polaritons on terahertz stimulated emission in optically pumped monolayer graphene
T Watanabe, T Fukushima, Y Yabe, SAB Tombet, A Satou, AA Dubinov, ...
Graphene-Based Terahertz Electronics and Plasmonics, 603-617, 2020
Quantum mechanics for nanostructures
VV Mitin, DI Sementsov, NZ Vagidov
Cambridge University Press, 2010
Comparison of dark current, responsivity and detectivity in different intersubband infrared photodetectors
V Ryzhii, I Khmyrova, M Ryzhii, V Mitin
Semiconductor science and technology 19 (1), 8, 2003
Device model for quantum dot infrared photodetectors and their dark-current characteristics
V Ryzhii, I Khmyrova, V Pipa, V Mitin, M Willander
Semiconductor science and technology 16 (5), 331, 2001
Terahertz and infrared photodetection using pin multiple-graphene-layer structures
V Ryzhii, M Ryzhii, V Mitin, T Otsuji
Journal of Applied Physics 107 (5), 2010
Ultrasensitive hot-electron kinetic-inductance detectors operating well below the superconducting transition
AV Sergeev, VV Mitin, BS Karasik
Applied physics letters 80 (5), 817-819, 2002
Device model for graphene nanoribbon phototransistor
V Ryzhii, V Mitin, M Ryzhii, N Ryabova, T Otsuji
Applied physics express 1 (6), 063002, 2008
On the detectivity of quantum-dot infrared photodetectors
V Ryzhii, I Khmyrova, V Mitin, M Stroscio, M Willander
Applied Physics Letters 78 (22), 3523-3525, 2001
Confined acoustic phonons in a free‐standing quantum well and their interaction with electrons
N Bannov, V Mitin, M Stroscio
physica status solidi (b) 183 (1), 131-142, 1994
Terahertz and infrared photodetectors based on multiple graphene layer and nanoribbon structures
V Ryzhii, N Ryabova, M Ryzhii, N Baryshnikov, V Karasik, V Mitin, T Otsuji
Opto-Electronics Review 20 (1), 15-25, 2012
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