Supriyo Bandyopadhyay
Supriyo Bandyopadhyay
Virginia Commonwealth University, University of Nebraska, University of Notre Dame, Purdue
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Cited by
Cited by
Introduction to spintronics
S Bandyopadhyay, M Cahay
CRC press, 2008
Structure and magnetic properties of ferromagnetic nanowires in self-assembled arrays
H Zeng, R Skomski, L Menon, Y Liu, S Bandyopadhyay, DJ Sellmyer
Physical Review B 65 (13), 134426, 2002
Magnetic properties of self-assembled Co nanowires of varying length and diameter
H Zeng, M Zheng, R Skomski, DJ Sellmyer, Y Liu, L Menon, ...
Journal of Applied Physics 87 (9), 4718-4720, 2000
Hybrid spintronics and straintronics: A magnetic technology for ultra low energy computing and signal processing
K Roy, S Bandyopadhyay, J Atulasimha
Applied Physics Letters 99 (6), 2011
Observation of extremely long spin relaxation times in an organic nanowire spin valve
S Pramanik, CG Stefanita, S Patibandla, S Bandyopadhyay, K Garre, ...
Nature nanotechnology 2 (4), 216-219, 2007
Novel interference effects between parallel quantum wells
S Datta, MR Melloch, S Bandyopadhyay, R Noren, M Vaziri, M Miller, ...
Physical review letters 55 (21), 2344, 1985
Electrochemically assembled quasi-periodic quantum dot arrays
S Bandyopadhyay, AE Miller, HC Chang, G Banerjee, V Yuzhakov, ...
Nanotechnology 7 (4), 360, 1996
Electrochemical synthesis of quasi-periodic quantum dot and nanostructure arrays
AE Miller, S Bandyopadhyay
US Patent 5,747,180, 1998
Raman spectroscopy of electrochemically self-assembled CdS quantum dots
A Balandin, KL Wang, N Kouklin, S Bandyopadhyay
Applied Physics Letters 76 (2), 137-139, 2000
Supercomputing with spin-polarized single electrons in a quantum coupled architecture
S Bandyopadhyay, B Das, AE Miller
Nanotechnology 5 (2), 113, 1994
Magnetic properties of Ni nanowires in self-assembled arrays
M Zheng, L Menon, H Zeng, Y Liu, S Bandyopadhyay, RD Kirby, ...
Physical Review B 62 (18), 12282, 2000
Self-assembled nanoelectronic quantum computer based on the Rashba effect in quantum dots
S Bandyopadhyay
Physical Review B 61 (20), 13813, 2000
Bennett clocking of nanomagnetic logic using multiferroic single-domain nanomagnets
J Atulasimha, S Bandyopadhyay
Applied Physics Letters 97 (17), 2010
Giant photoresistivity and optically controlled switching in self-assembled nanowires
N Kouklin, L Menon, AZ Wong, DW Thompson, JA Woollam, PF Williams, ...
Applied Physics Letters 79 (26), 4423-4425, 2001
Electron spin for classical information processing: a brief survey of spin-based logic devices, gates and circuits
S Bandyopadhyay, M Cahay
Nanotechnology 20 (41), 412001, 2009
Proposed structure for large quantum interference effects
S Datta, MR Melloch, S Bandyopadhyay, MS Lundstrom
Applied physics letters 48 (7), 487-489, 1986
Energy dissipation and switching delay in stress-induced switching of multiferroic nanomagnets in the presence of thermal fluctuations
K Roy, S Bandyopadhyay, J Atulasimha
JOURNAL OF APPLIED PHYSICS 112 (2), 023914, 2012
Experimental clocking of nanomagnets with strain for ultralow power Boolean logic
SBJA N. D'Souza, M. Salehi Fashami
Nano Letters 16 (2), 1069-1075, 2016
Magnetization dynamics, Bennett clocking and associated energy dissipation in multiferroic logic
MS Fashami, K Roy, J Atulasimha, S Bandyopadhyay
Nanotechnology 22 (15), 155201, 2011
Collective computational activity in self-assembled arrays of quantum dots: A novel neuromorphic architecture for nanoelectronics
VP Roychowdhury, DB Janes, S Bandyopadhyay, X Wang
IEEE transactions on electron devices 43 (10), 1688-1699, 1996
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