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avik W ghosh
avik W ghosh
Professor, University of Virginia, Electrical Engineering
Verified email at virginia.edu - Homepage
Title
Cited by
Cited by
Year
PdSe2: Pentagonal Two-Dimensional Layers with High Air Stability for Electronics
AD Oyedele, S Yang, L Liang, AA Puretzky, K Wang, J Zhang, P Yu, ...
Journal of the American Chemical Society 139 (40), 14090-14097, 2017
6652017
Advances and future prospects of spin-transfer torque random access memory
E Chen, D Apalkov, Z Diao, A Driskill-Smith, D Druist, D Lottis, V Nikitin, ...
IEEE Transactions on Magnetics 46 (6), 1873-1878, 2010
5192010
Unified description of molecular conduction: From molecules to metallic wires
PS Damle, AW Ghosh, S Datta
Physical Review B 64 (20), 201403, 2001
4842001
Electron optics with pn junctions in ballistic graphene
S Chen, Z Han, MM Elahi, KMM Habib, L Wang, B Wen, Y Gao, ...
Science 353 (6307), 1522-1525, 2016
3282016
Computational investigation of half-Heusler compounds for spintronics applications
J Ma, VI Hegde, K Munira, Y Xie, S Keshavarz, DT Mildebrath, ...
Physical Review B 95 (2), 024411, 2017
3142017
First-principles analysis of molecular conduction using quantum chemistry software
P Damle, AW Ghosh, S Datta
Chemical physics 281 (2-3), 171-187, 2002
2952002
Silicon-based molecular electronics
T Rakshit, GC Liang, AW Ghosh, S Datta
Nano Letters 4 (10), 1803-1807, 2004
2582004
On the validity of the parabolic effective-mass approximation for the IV calculation of silicon nanowire transistors
J Wang, A Rahman, A Ghosh, G Klimeck, M Lundstrom
IEEE Transactions on Electron Devices 52 (7), 1589-1595, 2005
2242005
Generalized effective-mass approach for n-type metal-oxide-semiconductor field-effect transistors on arbitrarily oriented wafers
A Rahman, MS Lundstrom, AW Ghosh
Journal of applied physics 97 (5), 2005
1982005
Theoretical investigation of surface roughness scattering in silicon nanowire transistors
J Wang, E Polizzi, A Ghosh, S Datta, M Lundstrom
Applied Physics Letters 87 (4), 2005
1912005
Extended Hückel theory for band structure, chemistry, and transport. I. Carbon nanotubes
D Kienle, JI Cerda, AW Ghosh
Journal of applied physics 100 (4), 2006
1672006
Gating of a molecular transistor: Electrostatic and conformational
AW Ghosh, T Rakshit, S Datta
Nano Letters 4 (4), 565-568, 2004
1672004
Electrostatic potential profiles of molecular conductors
GC Liang, AW Ghosh, M Paulsson, S Datta
Physical Review B 69 (11), 115302, 2004
1512004
Probing electronic excitations in molecular conduction
B Muralidharan, AW Ghosh, S Datta
Physical Review B—Condensed Matter and Materials Physics 73 (15), 155410, 2006
1482006
Charging-induced asymmetry in molecular conductors
F Zahid, AW Ghosh, M Paulsson, E Polizzi, S Datta
Physical Review B—Condensed Matter and Materials Physics 70 (24), 245317, 2004
1342004
A self-consistent transport model for molecular conduction based on extended Hückel theory with full three-dimensional electrostatics
F Zahid, M Paulsson, E Polizzi, AW Ghosh, L Siddiqui, S Datta
The Journal of chemical physics 123 (6), 2005
1092005
Computational investigation of inverse Heusler compounds for spintronics applications
J Ma, J He, D Mazumdar, K Munira, S Keshavarz, T Lovorn, C Wolverton, ...
Physical Review B 98 (9), 094410, 2018
1012018
Extracting phonon thermal conductance across atomic junctions: Nonequilibrium Green’s function approach compared to semiclassical methods
PE Hopkins, PM Norris, MS Tsegaye, AW Ghosh
Journal of Applied Physics 106 (6), 2009
952009
Molecular electronics: Theory and device prospects
AW Ghosh, PS Damle, S Datta, A Nitzan
MRS bulletin 29 (6), 391-395, 2004
822004
Skyrmionics—Computing and memory technologies based on topological excitations in magnets
H Vakili, JW Xu, W Zhou, MN Sakib, MG Morshed, T Hartnett, Y Quessab, ...
Journal of Applied Physics 130 (7), 2021
802021
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