Gregory Snider
Gregory Snider
Professor of Electrical Engineering
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Cited by
Cited by
A self‐consistent solution of Schrödinger–Poisson equations using a nonuniform mesh
IH Tan, GL Snider, LD Chang, EL Hu
Journal of applied physics 68 (8), 4071-4076, 1990
Realization of a functional cell for quantum-dot cellular automata
AO Orlov, I Amlani, GH Bernstein, CS Lent, GL Snider
Science 277 (5328), 928-930, 1997
Digital logic gate using quantum-dot cellular automata
I Amlani, AO Orlov, G Toth, GH Bernstein, CS Lent, GL Snider
science 284 (5412), 289-291, 1999
InAlN/AlN/GaN HEMTs With Regrown Ohmic Contacts andof 370 GHz
Y Yue, Z Hu, J Guo, B Sensale-Rodriguez, G Li, R Wang, F Faria, T Fang, ...
IEEE Electron Device Letters 33 (7), 988-990, 2012
Electron transport in AlGaN–GaN heterostructures grown on 6H–SiC substrates
R Gaska, JW Yang, A Osinsky, Q Chen, MA Khan, AO Orlov, GL Snider, ...
Applied Physics Letters 72 (6), 707-709, 1998
Quantum-dot cellular automata: Review and recent experiments
GL Snider, AO Orlov, I Amlani, X Zuo, GH Bernstein, CS Lent, JL Merz, ...
Journal of Applied Physics 85 (8), 4283-4285, 1999
Molecular quantum cellular automata cells. Electric field driven switching of a silicon surface bound array of vertically oriented two-dot molecular quantum cellular automata
H Qi, S Sharma, Z Li, GL Snider, AO Orlov, CS Lent, TP Fehlner
Journal of the American Chemical Society 125 (49), 15250-15259, 2003
Experimental demonstration of a binary wire for quantum-dot cellular automata
AO Orlov, I Amlani, G Toth, CS Lent, GH Bernstein, GL Snider
Applied physics letters 74 (19), 2875-2877, 1999
Electron mobility in modulation-doped AlGaN–GaN heterostructures
R Gaska, MS Shur, AD Bykhovski, AO Orlov, GL Snider
Applied physics letters 74 (2), 287-289, 1999
Operation of a quantum-dot cellular automata (QCA) shift register and analysis of errors
RK Kummamuru, AO Orlov, R Ramasubramaniam, CS Lent, GH Bernstein, ...
IEEE Transactions on electron devices 50 (9), 1906-1913, 2003
Experimental demonstration of a leadless quantum-dot cellular automata cell
I Amlani, AO Orlov, RK Kummamuru, GH Bernstein, CS Lent, GL Snider
Applied Physics Letters 77 (5), 738-740, 2000
Quantum‐dot cellular automata at a molecular scale
M Lieberman, S Chellamma, B Varughese, Y Wang, C Lent, GH Bernstein, ...
Annals of the New York Academy of Sciences 960 (1), 225-239, 2002
Electron states in mesa‐etched one‐dimensional quantum well wires
GL Snider, IH Tan, EL Hu
Journal of Applied Physics 68 (6), 2849-2853, 1990
Experimental demonstration of clocked single-electron switching in quantum-dot cellular automata
AO Orlov, I Amlani, RK Kummamuru, R Ramasubramaniam, G Toth, ...
Applied Physics Letters 77 (2), 295-297, 2000
Quantum-dot cellular automata: computing with coupled quantum dots
W Porod, C Lent, GH Bernstein, AO Orlov, I Hamlani, GL Snider, JL Merz
International Journal of Electronics 86 (5), 549-590, 1999
Gate-recessed enhancement-mode InAlN/AlN/GaN HEMTs with 1.9-A/mm drain current density and 800-mS/mm transconductance
R Wang, P Saunier, X Xing, C Lian, X Gao, S Guo, G Snider, P Fay, ...
IEEE electron device letters 31 (12), 1383-1385, 2010
Demonstration of a six-dot quantum cellular automata system
I Amlani, AO Orlov, GL Snider, CS Lent, GH Bernstein
Applied Physics Letters 72 (17), 2179-2181, 1998
Single particle transport in two-dimensional heterojunction interlayer tunneling field effect transistor
MO Li, D Esseni, G Snider, D Jena, H Grace Xing
Journal of Applied Physics 115 (7), 2014
Dependence of field switched ordered arrays of dinuclear mixed-valence complexes on the distance between the redox centers and the size of the counterions
H Qi, A Gupta, BC Noll, GL Snider, Y Lu, C Lent, TP Fehlner
Journal of the American Chemical Society 127 (43), 15218-15227, 2005
Power gain in a quantum-dot cellular automata latch
RK Kummamuru, J Timler, G Toth, CS Lent, R Ramasubramaniam, ...
Applied Physics Letters 81 (7), 1332-1334, 2002
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