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
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
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
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
Electrochemical synthesis of quasi-periodic quantum dot and nanostructure arrays
AE Miller, S Bandyopadhyay
US Patent 5,747,180, 1998
Electrochemically assembled quasi-periodic quantum dot arrays
S Bandyopadhyay, AE Miller, HC Chang, G Banerjee, V Yuzhakov, ...
Nanotechnology 7 (4), 360, 1996
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
Proposed structure for large quantum interference effects
S Datta, MR Melloch, S Bandyopadhyay, MS Lundstrom
Applied physics letters 48 (7), 487-489, 1986
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
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
Magnetization dynamics, Bennett clocking and associated energy dissipation in multiferroic logic
MS Fashami, K Roy, J Atulasimha, S Bandyopadhyay
Nanotechnology 22 (15), 155201, 2011
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
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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