Dmitri E. Nikonov
Dmitri E. Nikonov
Principal Engineer, Intel
Verified email at intel.com
Title
Cited by
Cited by
Year
Experimental demonstration of laser oscillation without population inversion via quantum interference in Rb
AS Zibrov, MD Lukin, DE Nikonov, LW Hollberg, MO Scully, ...
Phys. Rev. Lett 75, 1499, 1995
6961995
Overview of beyond-CMOS devices and a uniform methodology for their benchmarking
DE Nikonov, IA Young
Proceedings of the IEEE 101, 2498 - 2533, 2013
5232013
Analysis of graphene nanoribbons as a channel material for field-effect transistors
B Obradovic, R Kotlyar, F Heinz, P Matagne, T Rakshit, MD Giles, ...
Applied Physics Letters 88 (14), 142102, 2006
4312006
Electric-field-induced magnetization reversal in a ferromagnet-multiferroic heterostructure
JT Heron, M Trassin, K Ashraf, M Gajek, Q He, SY Yang, DE Nikonov, ...
Physical Review Letters 107 (21), 217202, 2011
4292011
Experimental demonstration of enhanced index of refraction via quantum coherence in Rb
AS Zibrov, MD Lukin, L Hollberg, DE Nikonov, MO Scully, ...
Phys. Rev. Lett. 76, 3935, 1996
3961996
Laser oscillation without population inversion in a sodium atomic beam
GG Padmabandu, GR Welch, IN Shubin, ES Fry, DE Nikonov, MD Lukin, ...
Physical review letters 76 (12), 2053, 1996
3811996
Performance comparison between pin tunneling transistors and conventional MOSFETs
SO Koswatta, MS Lundstrom, DE Nikonov
IEEE Transactions on Electron Devices 56 (3), 456-465, 2009
3512009
Modeling of nanoscale devices
MP Anantram, MS Lundstrom, DE Nikonov
Proceedings of the IEEE 96 (9), 1511-1550, 2008
3402008
Atomic coherence effects within the sodium line: Lasing without inversion via population trapping
ES Fry, X Li, D Nikonov, GG Padmabandu, MO Scully, AV Smith, FK Tittel, ...
Physical review letters 70 (21), 3235, 1993
3281993
Performance projections for ballistic graphene nanoribbon field-effect transistors
G Liang, N Neophytou, DE Nikonov, MS Lundstrom
IEEE Transactions on Electron Devices 54 (4), 677-682, 2007
3062007
Benchmarking of beyond-CMOS exploratory devices for logic integrated circuits
DE Nikonov, IA Young
IEEE Journal on Exploratory Solid-State Computational Devices and Circuits 1 …, 2015
2922015
Scalable energy-efficient magnetoelectric spin–orbit logic
S Manipatruni, DE Nikonov, CC Lin, TA Gosavi, H Liu, B Prasad, ...
Nature 565 (7737), 35-42, 2019
2322019
Collective intersubband excitations in quantum wells: Coulomb interaction versus subband dispersion
DE Nikonov, A Imamoğlu, LV Butov, H Schmidt
Physical review letters 79 (23), 4633, 1997
1921997
Nonequilibrium green's function treatment of phonon scattering in carbon-nanotube transistors
SO Koswatta, S Hasan, MS Lundstrom, MP Anantram, DE Nikonov
IEEE Transactions on Electron Devices 54 (9), 2339-2351, 2007
1782007
Fano interference of collective excitations in semiconductor quantum wells and lasing without inversion
DE Nikonov, A Imamoğlu, MO Scully
Physical Review B 59 (19), 12212, 1999
1781999
Beyond CMOS computing with spin and polarization
S Manipatruni, DE Nikonov, IA Young
Nature Physics 14 (4), 338-343, 2018
1752018
Proposal of a spin torque majority gate logic
DE Nikonov, GI Bourianoff, T Ghani
Electron Device Letters, IEEE 32 (8), 1128 - 1130, 2011
1622011
Quantum phenomena in nonstationary media
VV Dodonov, AB Klimov, DE Nikonov
Physical Review A 47 (5), 4422, 1993
1471993
Ballistic graphene nanoribbon metal-oxide-semiconductor field-effect transistors: A full real-space quantum transport simulation
G Liang, N Neophytou, MS Lundstrom, DE Nikonov
Journal of Applied Physics 102 (5), 054307, 2007
1422007
Computational study of carbon nanotube pin tunnel FETs
SO Koswatta, DE Nikonov, MS Lundstrom
IEEE InternationalElectron Devices Meeting, 2005. IEDM Technical Digest …, 2005
1392005
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