avik W ghosh
avik W ghosh
Professor, University of Virginia, Electrical Engineering
Verifierad e-postadress på virginia.edu - Startsida
Citeras av
Citeras av
Unified description of molecular conduction: From molecules to metallic wires
PS Damle, AW Ghosh, S Datta
Physical Review B 64 (20), 201403, 2001
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
First-principles analysis of molecular conduction using quantum chemistry software
P Damle, AW Ghosh, S Datta
Chemical physics 281 (2-3), 171-187, 2002
Silicon-based molecular electronics
T Rakshit, GC Liang, AW Ghosh, S Datta
Nano Letters 4 (10), 1803-1807, 2004
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
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
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
Generalized effective-mass approach for -type metal-oxide-semiconductor field-effect transistors on arbitrarily oriented wafers
A Rahman, MS Lundstrom, AW Ghosh
Journal of applied physics 97 (5), 053702, 2005
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), 043101, 2005
Gating of a molecular transistor: Electrostatic and conformational
AW Ghosh, T Rakshit, S Datta
Nano Letters 4 (4), 565-568, 2004
Electrostatic potential profiles of molecular conductors
GC Liang, AW Ghosh, M Paulsson, S Datta
Physical Review B 69 (11), 115302, 2004
Probing electronic excitations in molecular conduction
B Muralidharan, AW Ghosh, S Datta
Physical Review B 73 (15), 155410, 2006
Extended Hückel theory for band structure, chemistry, and transport. I. Carbon nanotubes
D Kienle, JI Cerda, AW Ghosh
Journal of applied physics 100 (4), 043714, 2006
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
Charging-induced asymmetry in molecular conductors
F Zahid, AW Ghosh, M Paulsson, E Polizzi, S Datta
Physical Review B 70 (24), 245317, 2004
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), 064707, 2005
Molecular electronics: Theory and device prospects
AW Ghosh, PS Damle, S Datta, A Nitzan
MRS bulletin 29 (6), 391-395, 2004
Low-energy electrodynamics of novel spin excitations in the quantum spin ice Yb 2 Ti 2 O 7
LD Pan, SK Kim, A Ghosh, CM Morris, KA Ross, E Kermarrec, BD Gaulin, ...
Nature communications 5 (1), 1-7, 2014
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), 063503, 2009
Temperature dependence of the conductance of multiwalled carbon nanotubes
E Graugnard, PJ De Pablo, B Walsh, AW Ghosh, S Datta, R Reifenberger
Physical Review B 64 (12), 125407, 2001
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