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Nano electronic research ( reference )

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Counterion-free molecular quantum-dot cellular automata using mixed valence zwitterions – A double-dot derivative of the [closo-1-CB9H10] cluster [pdf]
Yuhui Lu and Craig S. Lent 
Chem. Phys. Lett. 582 86-89 (2013)
Energy Recovery and Logical Reversibility in Adiabatic CMOS Multiplier [pdf]
Ismo Hanninen, Hao Lu, Craig S. Lent, and Gregory L. Snider 
Reversible Computation, Gerhard W. Dueck and D. Michael Miller (Eds.), (Springer-Verlag, Berlin Heidelberg, 2013)
Adsorption of diferrocenylacetylene on Au(111) studied by scanning tunneling microscopy [pdf]
Rebecca C. Quardokus, Natalie A. Wasio, Ryan P. Forrest, Craig S. Lent, Steven A. Corcelli, John A. Christie, Kenneth W. Hendersona and S. Alex Kandel 
Phys. Chem. Chem. Phys.18, 6973-6981 (2013)
Environmental decoherence stabilizes quantum-dot cellular automata [pdf]
Enrique P. Blair and Craig S. Lent 
J. Appl. Phys 113, 124302 (2013)
STM Imaging of Three-Metal-Center Molecules: Comparison of Experiment and Theory For Two Mixed-Valence Oxidation States [pdf]
Natalie A. Wasio, Rebecca C. Quardokus, Ryan P. Forrest, Steven A. Corcelli, Yuhui Lu, Craig S. Lent, Frederic Justaud, Claude Lapinte, and S. Alex Kandel 
Phys. Chem. C 116, 25486?25492 (2012)
Through-Bond versus Through-Space Coupling in Mixed-Valence Molecules: Observation of Electron Localization at the Single-Molecule Scale [pdf]
Rebecca C. Quardokus, Yuhui Lu, Natalie A. Wasio, Craig S. Lent, Frederic Justaud, Claude Lapinte, S. Alex Kandel 
J. Am. Chem Soc. 134, 1710-1714 (2012)
Experimental Test of Landauer’s Principle at the Sub-k(B)T Level [pdf]
Alexei O. Orlov, Craig S. Lent, Cameron C. Thorpe, Graham P. Boechler, and Gregory L. Snider 
Jpn. J. Applied Phys 51, 06FE10m (2012)
Signal Energy in Quantum-Dot Cellular Automata Bit Packets [pdf]
Enrique Pacis Blair, Mo Liu, and Craig S. Lent 
Journal of Computational and Theoretical Nanoscience 8, 972-982 (2011)
Self-doping of molecular quantum-dot cellular automata: mixed valence zwitterions [pdf]
Yuhui Lu and Craig S. Lent 
Phys. Chem. Chem. Phys., 13, 14928–14936 (2011)
Response to “Comment on ‘Fundamental limits of energy dissipation in charge-based computing’ [pdf]
G. P. Boechler, J.M. Whitney, C.S. Lent, A.O. Orlov, and G.L. Snider 
Appl. Phys. Lett. 98, 096102 (2011)
Irreversible Bit Erasures in Binary Multipliers [pdf]
Ismo Hanninen, Jarmo Takala, and Craig S. Lent 
2011 IEEE INTERNATIONAL SYMPOSIUM ON CIRCUITS AND SYSTEMS 2369-2372, (2011)
Fundamental limits of energy dissipation in charge-based computing [pdf]
G. P. Boechler, J.M. Whitney, C.S. Lent, A.O. Orlov, and G.L. Snider 
Appl. Phys. Lett. 97, 103502 (2010)
Charge localization in isolated mixed-valence complexes: An STM and theoretical study [pdf]
Yuhui Lu, Rebecca Quardokus Craig Lent, Frederic Justaud, Claude Lapinte, Alex Kandel 
J. Am. Chem. Soc. 132, 13519-13524 (2010)
Power dissipation in clocking wires for clocked molecular quantum-dot cellular automata [pdf]
Enrique P. Blair, Eric Yost , and Craig S. Lent 
J. Computational Electronics 10.1007/s10825-009-0304-0 (2009)
Electronic quantum-dot cellular automata [pdf]
G. L. Snider, A.O. Orlov, V. Joshi, R.A. Joyce, H. Qi, K.K. Yadavalli, G.H. Bernstein, T.P. Fehlner, C.S. Lent, 
Solid State and Integrated Circuit Technology, 549-552 (2008).
A metric for characterizing the bistability of quantum-dot cellular automata [pdf]
Yuhui Lu and C S Lent 
NANOTECHNOLOGY 19, 155703 (2008)
Fanout gate in quantum-dot cellular automata [pdf]
KKYadavalli1, A O Orlov, J P Timler, C S Lent and G L Snider 
NANOTECHNOLOGY 18, 375401 (2007)
Reply to Comment on ‘Bennett clocking of quantum-dot cellular automata and the limits to binary switch scaling. [pdf]
Craig S. Lent
NANOTECHNOLOGY 18, 298001 (2007)
Molecular quantum-dot cellular automata: From molecular structure to circuit dynamics [pdf]
Yuhui Lu, Mo Liu, and Craig S. Lent
JOURNAL OF APPLIED PHYSICS 102, 034311 (2007)
Reliability and Defect Tolerance in Metallic Quantum-dot Cellular Automata [pdf]
Mo Liu and Craig S. Lent
JOURNAL OF ELECTRONIC TESTING 23, pp. 211-218 (2007)
Strong cotunneling suppression in a single-electron transistor with granulated metal film island [pdf]
X. Luo, M. Tomcsanyi, A.O. Orlov, T.H. Kosel and G.L. Snider
APPLIED PHYSICS LETTERS 89, pp. 043511 (2006)
Robustness and Power Dissipation in Quantum-dot Cellular Automata [pdf]
M. Liu
PH.D. THESIS, UNIVERSITY OF NOTRE DAME (2006)
PLAs in Quantum-dot Cellular Automata [pdf]
X.S. Hu, M. Crocker, M. Niemier, M. Yan and G. Bernstein
PROCEEDINGS OF THE IEEE COMPUTER SOCIETY ANNUAL SYMPOSIUM ON EMERGING VLSI TECHNOLOGIES AND ARCHITECTURES (2006)
Bennett clocking of quantum-dot cellular automata and the limits to binary logic scaling [pdf]
C.S. Lent, M. Liu and Y. Lu
NANOTECHNOLOGY 17, pp. 4240-4251 (2006)
Theoretical Study of Molecular Quantum-Dot Cellular Automata [pdf]
Y. Lu and C.S. Lent
JOURNAL OF COMPUTATIONAL ELECTRONICS 4, pp. 115-118 (2005)
Temperature dependence of the locked mode in a single-electron latch [pdf]
R.K. Kummamuru, M. Liu, A.O. Orlov, C.S. Lent, G.H. Bernstein and G.L. Snider
MICROELECTRONICS JOURNAL 36, pp. 304-307 (2005)
STM investigation of phthalocyanines as possible building blocks for quantum-dot cellular automata [pdf]
A.C. Beck
PH.D. THESIS, UNIVERSITY OF NOTRE DAME (2005)
Properties of a mixed-valence (Fe-II)(2)(Fe-III)(2) square cell for utilization in the quantum cellular automata paradigm for molecular electronics [pdf]
J. Jiao, G.J. Long, L. Rebbouh, F. Grandjean, A.M. Beatty and T.P. Fehlner
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 127, pp. 17819-17831 (2005)
Power dissipation in clocked quantum-dot cellular automata circuits [pdf]
M. Liu and C.S. Lent
63RD DEVICE RESEARCH CONFERENCE 1, pp. 123-124 (2005)
Origin of Coulomb blockade oscillations in single-electron transistors fabricated with granulated Cr/Cr2O3 resistive microstrips [pdf]
X. Luo, A.O. Orlov and G.L. Snider
MICROELECTRONICS JOURNAL 36, pp. 308-312 (2005)
Memory Architecture for Quantom-dot Cellular Automata [pdf]
S.E. Frost
MASTER’S THESIS, UNIVERSITY OF NOTRE DAME (2005)
Dependence of field switched ordered arrays of dinuclear mixed-valence complexes on the distance between the redox centers and the size of the counterions [pdf]
H. Qi, A. Gupta, B.C. Noll, G.L. Snider, Y. Lu, C. Lent and T.P. Fehlner
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 127, pp. 15218-15227 (2005)
Using circuits and systems-level research to drive nanotechnology [pdf]
M.T. Niemier, R. Ravichandran and P.M. Kogge
PROCEEDINGS OF THE IEEE INTERNATIONAL CONFERENCE ON COMPUTER DESIGN: VLSI IN COMPUTERS AND PROCESSORS pp. 302-309 (2004)
The “4-diamond circuit”-a minimally complex nano-scale computational building block in QCA [pdf]
M.T. Niemier and P.M. Kogge
PROCEEDINGS OF THE IEEE COMPUTER SOCIETY ANNUAL SYMPOSIUM ON VLSI pp. 3-10 (2004)
Synthesis, Characterization and Surface Attachment of Square Mixed-valence Complexes as Building Blocks for Molecular Quantum Cellular Automata [pdf]
J. Jiao
PH.D. THESIS, UNIVERSITY OF NOTRE DAME (2004)
Sub-10 nm electron beam lithography using cold development of poly (methylmethacrylate) [pdf]
W.W. Hu, K. Sarveswaran, M. Lieberman and G.H. Bernstein
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B: MICROELECTRONICS AND NANOMETER STRUCTURES 22, pp. 1711-1716 (2004)
Quantum-Dot Cellular Automata (QCA) Circuit Partitioning: Problem Modeling and Solutions [pdf]
D.A. Antonelli, D.Z. Chen, T.J. Dysart, X.S. Hu, A.B. Kahng, P.M. Kogge, R.C. Murphy and M.T. Niemier
PROCEEDINGS OF THE 41ST ANNUAL CONFERENCE ON DESIGN AUTOMATION pp. 363-368 (2004)
Origins and motivations for design rules in QCA
M.T. Niemier and P.M. Kogge
NANO, QUANTUM AND MOLECULAR COMPUTING: IMPLICATIONS TO HIGH LEVEL DESIGN AND VALIDATION TABLE OF CONTENTS pp. 267-293 (2004)
Fabrication and characterization of Au island single-electron transistors with CrOx step edge junctions [pdf]
X. Luo, A.O. Orlov and G.L. Snider
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B 22, pp. 3128-3132 (2004)
Experimental studies of quantum-dot cellular automata devices [pdf]
A.O. Orlov, R. Kummamuru, J. Timler, C.S. Lent, G.L. Snider and G.H. Bernstein
MESOSCOPIC TUNNELING DEVICES (2004)
Designing Digital Systems in Quantum Cellular Automata [pdf]
M.T. Niemier
MASTER’S THESIS, UNIVERSITY OF NOTRE DAME (2004)
Carbon nanotubes for quantum-dot cellular automata clocking [pdf]
S.E. Frost, T.J. Dysart, P.M. Kogge and C.S. Lent
4TH IEEE CONFERENCE ON NANOTECHNOLOGY pp. 171-173 (2004)
Scanning tunneling microscopy and spectroscopy investigations of QCA molecules [pdf]
M. Manimaran, G.L. Snider, C.S. Lent, V. Sarveswaran, M. Lieberman, Z. Li and T.P. Fehlner
ULTRAMICROSCOPY 97, pp. 55-63 (2003)
Quantum-Dot Cellular Automata: An Architecture for Molecular Computing [pdf]
E.P. Blair and C.S. Lent
THIRD IEEE CONFERENCE ON NANOTECHNOLOGY 1, pp. 402-405 (2003)
Operation of a quantum-dot cellular automata (QCA) shift register and analysis of errors [pdf]
R.K. Kummamuru, A.O. Orlov, R. Ramasubramaniam, C.S. Lent, G.H. Bernstein and G.L. Snider
IEEE TRANSACTIONS ON ELECTRON DEVICES 50, pp. 1906-1913 (2003)
Nanometer scale rafts built from DNA tiles [pdf]
K. Sarveswaran, P. Huber, M. Lieberman, C. Russo and C. Lent
PROCEEDINGS OF THE THIRD IEEE CONFERENCE ON NANOTECHNOLOGY 1, pp. 417-420 (2003)
Molecular quantum-dot cellular automata [pdf]
C.S. Lent, B. Isaksen and M. Lieberman
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 125, pp. 1056-1063 (2003)
Molecular quantum-dot cellular automata [pdf]
B. Isaksen and C.S. Lent
THIRD IEEE CONFERENCE ON NANOTECHNOLOGY 1, pp. 5-8 (2003)
Molecular quantum cellular automata cells. electric field driven switching of a silicon surface bound array of vertically oriented two-dot molecular quantum cellular automata [pdf]
H. Qi, S. Sharma, Z. Li, G.L. Snider, A.O. Orlov, C.S. Lent and T.P. Fehlner
JOURNAL OF THE AMERICAN CHEMCAL SOCIETY 125, pp. 15250-15259 (2003)
Molecular QCA Cells. 2. Characterization of an Unsymmetrical Dinuclear Mixed-Valence Complex Bound to a Au Surface by an Organic Linker [pdf]
Z. Li and T.P. Fehlner
INORGANIC CHEMISTRY 42, pp. 5715-5721 (2003)
Molecular QCA Cells. 1. Structure and Functionalization of an Unsymmetrical Dinuclear Mixed-Valence Complex for Surface Binding [pdf]
Z. Li, A.M. Beatty and T.P. Fehlner
INORGANIC CHEMISTRY 42, pp. 5707-5714 (2003)
Maxwell’s demon and quantum-dot cellular automata [pdf]
J. Timler and C.S. Lent
JOURNAL OF APPLIED PHYSICS 94, pp. 1050-1060 (2003)
High-speed metallic quantum-dot cellular automata [pdf]
M. Liu and C.S. Lent
THIRD IEEE CONFERENCE ON NANOTECHNOLOGY 2, pp. 465-468 (2003)
Clocked quantum-dot cellular automata shift register [pdf]
A.O. Orlov, R. Kummamuru, R. Ramasubramaniam, C.S. Lent, G.H. Bernstein and G.L. Snider
SURFACE SCIENCE 532, pp. 1193-1198 (2003)
Clocked molecular quantum-dot cellular automata [pdf]
C.S. Lent and B. Isaksen
IEEE TRANSACTIONS ON ELECTRON DEVICES 50, pp. 1890-1896 (2003)
Building Blocks for the Molecular Expression of Quantum Cellular Automata: Isolation and Characterization of a Covalently Bonded Square Array of Two Ferrocenium and Two Ferrocene Complexes [pdf]
J. Jiao, G.J. Long, F. Grandjean, A.M. Beatty and T.P. Fehlner
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 125, pp. 7522-7523 (2003)
Bouncing threads: merging a new execution model into a nanotechnology memory
S.E. Frost, A.F. Rodrigues, C.A. Giefer and P.M. Kogge
PROCEEDINGS OF THE IEEE COMPUTER SOCIETY ANNUAL SYMPOSIUM ON VLSI pp. 19-25 (2003)
Quantum-Dot Cellular Automata at a Molecular Scale
M. Lieberman, S. Chellamma, B. Varughese, Y. Wang, C. Lent, G.H. Bernstein, G. Snider and F.C. Peiris
ANNALS OF THE NEW YORK ACADEMY OF SCIENCES 960, pp. 225-239 (2002)
Power gain in a quantum-dot cellular automata latch [pdf]
R.K. Kummamuru, J. Timler, G. Toth, C.S. Lent, R. Ramasubramaniam, A.O. Orlov, G.H. Bernstein and G.L. Snider
APPLIED PHYSICS LETTERS 81, pp. 1332-1334 (2002)
Power gain and dissipation in quantum-dot cellular automata [pdf]
J. Timler and C.S. Lent
JOURNAL OF APPLIED PHYSICS 91, pp. 823-831 (2002)
Memory in motion: A study of storage structures in QCA [pdf]
S.E. Frost, A.F. Rodrigues, A.W. Janiszewski, R.T. Rausch and P.M. Kogge
FIRST WORKSHOP ON NON-SILICON COMPUTING (2002)
Experimental progress in quantum-dot cellular automata
G.L. Snider, A.O. Orlov, R.K.K. Kummamuru, R. Ramasubramaniam, G.H. Bernstein, C.S. Lent, M. Lieberman and T.P. Felhner
PROCEEDINGS OF SPIE 5023, pp. 436-440 (2002)
Experimental demonstration of a QCA shift register and analysis of errors [pdf]
R.K. Kummamuru, A.O. Orlov, R. Ramasubramaniam, C.S. Lent, G.H. Bernstein and G.L. Snider
INTERNATIONAL ELECTRON DEVICES MEETING pp. 95-98 (2002)
Clocked quantum-dot cellular automata devices
A.O. Orlov, R. Kummamuru, R. Ramasubramaniam, C.S. Lent, G.H. Bernstein and G.L. Snider
PROCEEDINGS OF SPIE 5023, pp. 441-444 (2002)
A two-stage shift register for clocked Quantum-Dot Cellular Automata. [pdf]
A.O. Orlov, R. Kummamuru, R. Ramasubramaniam, C.S. Lent, G.H. Bernstein and G.L. Snider
JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY 2, pp. 351-355 (2002)
A Potentially Implementable FPGA for Quantum Dot Cellular Automata [pdf]
M.T. Niemier, A.F. Rodrigues and P.M. Kogge
1ST WORKSHOP ON NON-SILICON COMPUTATION (2002)
Role of Correlation in the Operation of Quantum-dot Cellular Automata [pdf]
G. Toth and C.S. Lent
JOURNAL OF APPLIED PHYSICS 89, pp. 7943-7953 (2001)
Quantum-dot cellular automata: introduction and experimental overview [pdf]
G.L. Snider, A.O. Orlov, R.K. Kummamuru, R. Ramasubramaniam, I. Amlani, G.H. Bernstein, C.S. Lent, J.L. Merz and P. Wolfgang
PROCEEDINGS OF THE FIRST IEEE CONFERENCE ON NANOTECHNOLOGY pp. 465-470 (2001)
Quantum computing with quantum-dot cellular automata [pdf]
G. Toth and C.S. Lent
PHYSICAL REVIEW A 63, pp. 52315 (2001)
Power gain in a quantum-dot cellular automata (QCA) shift register [pdf]
R.K. Kummamuru, A. Orlov, G. Toth, J. Timler, R. Rajagopal, C.S. Lent, G.H. Bernstein and G.L. Snider
PROCEEDINGS OF THE FIRST IEEE CONFERENCE ON NANOTECHNOLOGY pp. 431-436 (2001)
Exploring and exploiting wire-level pipelining in emerging technologies [pdf]
M.T. Niemier and P.M. Kogge
PROCEEDINGS OF THE 28TH ANNUAL INTERNATIONAL SYMPOSIUM ON COMPUTER ARCHITECTURE 29, pp. 166-177 (2001)
Experimental demonstration of a latch in clocked quantum-dot cellular automata [pdf]
A.O. Orlov, R.K. Kummamuru, R. Ramasubramaniam, G. Toth, C.S. Lent, G.H. Bernstein and G.L. Snider
APPLIED PHYSICS LETTERS 78, pp. 1625-1627 (2001)
Clocking of molecular quantum-dot cellular automata [pdf]
K. Hennessy and C.S. Lent
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B: MICROELECTRONICS AND NANOMETER STRUCTURES 19, pp. 1752-1755 (2001)
Clocked quantum-dot cellular automata devices: experimental studies [pdf]
A.O. Orlov, R. Kummamuru, R. Ramasubramaniam, C.S. Lent, G.H. Bemstein and G.L. Snider
PROCEEDINGS OF THE FIRST IEEE CONFERENCE ON NANOTECHNOLOGY pp. 425-430 (2001)
A quantum-dot cellular automata shift register [pdf]
R. Kummamura, A.O. Orlov, J.P. Timler, R. Ramasubramaniam, C.S. Lent, G.H. Bernstein and G.L. Snider
DEVICE RESEARCH CONFERENCE pp. 103-104 (2001)
Toward nanoelectronic systems integration [pdf]
A. Csurgay and W. Porod
PROCEEDINGS OF THE 2000 IEEE INTERNATIONAL SYMPOSIUM ON CIRCUITS AND SYSTEMS 1, pp. 1-4 (2000)
Signal processing with near-neighbor-coupled time-varying quantum-dot arrays [pdf]
A.I. Csurgay, W. Porod and C.S. Lent
IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I: FUNDAMENTAL THEORY AND APPLICATIONS 47, pp. 1212-1223 (2000)
Molecular Electronics: Bypassing the Transistor Paradigm [pdf]
C.S. Lent
SCIENCE 288, pp. 1597-1599 (2000)
Experimental studies of clocked quantum-dot cellular automata devices [pdf]
A.O. Orlov, G. Toth, I. Amlani, R. Kummamuru, R. Ramasubramaniam, C.S. Lent, G.H. Bernstein and G.L. Snider
58TH DEVICE RESEARCH CONFERENCE pp. 157-158 (2000)
Experimental demonstration of clocked single-electron switching in quantum-dot cellular automata [pdf]
A.O. Orlov, I. Amlani, R.K. Kummamuru, R. Ramasubramaniam, G. Toth, C.S. Lent, G.H. Bernstein and G.L. Snider
APPLIED PHYSICS LETTERS 77, pp. 295-297 (2000)
Experimental demonstration of a leadless quantum-dot cellular automata cell [pdf]
I. Amlani, A.O. Orlov, R.K. Kummamuru, G.H. Bernstein, C.S. Lent and G.L. Snider
APPLIED PHYSICS LETTERS 77, pp. 738-740 (2000)
Correlation and coherence in quantum-dot cellular automata [pdf]
G. Toth
PH.D. THESIS, UNIVERSITY OF NOTRE DAME (2000)
A design of and design tools for a novel quantum dot based microprocessor [pdf]
M.T. Niemier, M.J. Kontz and P.M. Kogge
PROCEEDINGS OF THE 37TH DESIGN AUTOMATION CONFERENCE pp. 227-232 (2000)
Why is time-varying control necessary for signal processing with locally-connected quantum-dot arrays?
A.I. Csurgay, C.S. Lent and W. Porod
PROCEEDINGS OF THE NINTH GREAT LAKES SYMPOSIUM ON VLSI (1999)
Quasi-adiabatic Switching for Metal-Island Quantum-dot Cellular Automata [pdf]
G. Toth and C.S. Lent
JOURNAL OF APPLIED PHYSICS 85, pp. 2977-2984 (1999)
Quantum-dot cellular automata [pdf]
G.L. Snider, A.O. Orlov, I. Amlani, X. Zuo, G.H. Bernstein, C.S. Lent, J.L. Merz and W. Porod
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A: VACUUM, SURFACES, AND FILMS 17, pp. 1394-1398 (1999)
Quantum-dot cellular automata: Review and recent experiments(invited) [pdf]
G.L. Snider, A.O. Orlov, I. Amlani, X. Zuo, G.H. Bernstein, C.S. Lent, J.L. Merz and W. Porod
JOURNAL OF APPLIED PHYSICS 85, pp. 4283-4285 (1999)
Quantum-Dot Cellular Automata [pdf]
G.L. Snider, A.O. Orlov, I. Amlani, G.H. Bernstein, C.S. Lent, J.L. Merz and W. Porod
MICROELECTRONIC ENGINEERING 47, pp. 261-263 (1999)
Quantum-Dot Cellular Automata: Line and Majority Logic Gate [pdf]
G.L. Snider, A.O. Orlov, I. Amlani, G.H. Bernstein, C.S. Lent, J.L. Merz and W. Porod
JAPANESE JOURNAL OF APPLIED PHYSICS 38, pp. 7227-7229 (1999)
Observation of switching in a quantum-dot cellular automata cell [pdf]
G.H. Bernstein, I. Amlani, A.O. Orlov, C.S. Lent and G.L. Snider
NANOTECHNOLOGY 10, pp. 166-173 (1999)
Modeling Nanoelectronic CNN Cells: CMOS, SETs and QCAs [pdf]
C. Gerousis, S.M. Goodnick, X. Wang, W. Porod, A.I. Csurgay, G. Toth and C.S. Lent
EUROPEAN CONFERENCE ON CIRCUIT THEORY AND DESIGN, STRESA, ITALY pp. 835 (1999)
Experimental demonstration of electron switching in a quantum-dot cellular automata (QCA) cell [pdf]
I. Amlani, A.O. Orlov, G.L. Snider, C.S. Lent, W. Porod and G.H. Bernstein
SUPERLATTICES AND MICROSTRUCTURES 25 (1999)
Experimental demonstration of a binary wire for quantum-dot cellular automata [pdf]
A.O. Orlov, I. Amlani, G. Toth, C.S. Lent, G.H. Bernstein and G.L. Snider
APPLIED PHYSICS LETTERS 74, pp. 2875-2877 (1999)
Digital Logic Gate Using Quantum-Dot Cellular Automata [pdf]
I. Amlani, A.O. Orlov, G. Toth, G.H. Bernstein, C.S. Lent and G.L. Snider
SCIENCE 284, pp. 289-291 (1999)
Conductance suppression due to correlated electron transport in coupled double quantum dots [pdf]
G. Toth, A.O. Orlov, I. Amlani, C.S. Lent, G.H. Bernstein and G.L. Snider
PHYSICAL REVIEW B 60, pp. 16906-16912 (1999)
Quantum computing with quantum-dot cellular automata using coherence vector formalism [pdf]
G. Toth, J. Timler and C.S. Lent
SIXTH INTERNATIONAL WORKSHOP ON COMPUTATIONAL ELECTRONICS pp. 42-45 (1998)
Experimental demonstration of quantum-dot cellular automata [pdf]
G.L. Snider, A.O. Orlov, I. Amlani, G.H. Bernstein, C.S. Lent, J.L. Merz and W. Porod
SEMICONDUCTOR SCIENCE AND TECHNOLOGY 13, pp. A130-A134 (1998)
Demonstration of a six-dot quantum cellular automata system [pdf]
I. Amlani, A.O. Orlov, G.L. Snider and C.S. Lent
APPLIED PHYSICS LETTERS 72, pp. 2179-2181 (1998)
Demonstration of a functional quantum-dot cellular automata cell [pdf]
I. Amlani, A.O. Orlov, G.L. Snider, C.S. Lent and G.H. Bernstein
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B: MICROELECTRONICS AND NANOMETER STRUCTURES 16, pp. 3795-3799 (1998)
Correlated electron transport in coupled metal double dots [pdf]
A.O. Orlov, I. Amlani, G. Toth, C.S. Lent, G.H. Bernstein and G.L. Snider
APPLIED PHYSICS LETTERS 73, pp. 2787-2789 (1998)
A functional cell for quantum-dot cellular automata [pdf]
G.L. Snider, A.O. Orlov, I. Amlani, G.H. Bernstein, C.S. Lent, J.L. Merz and W. Porod
SOLID STATE ELECTRONICS 42, pp. 1355-1359 (1998)
A feasibility study of a gallium arsenide-based quantum-dot cellular automata
G.H. Bazan
PH.D. THESIS, UNIVERSITY OF NOTRE DAME (1998)
2D Finite Element Method Simulation of Lateral Resonant Tunneling Devices
Z.A. Shao, W. Porod and C.S. Lent
VLSI DESIGN 6, pp. 131-136 (1998)
Realization of a Functional Cell for Quantum-Dot Cellular Automata [pdf]
A.O. Orlov, I. Amlani, G.H. Bernstein, C.S. Lent and G.L. Snider
SCIENCE 277, pp. 928-930 (1997)
Quantum-dot cellular nonlinear networks: computing with locally-connected quantum dot arrays [pdf]
W. Porod, C.S. Lent, G. Toth, H. Luo, A. Csurgay, YF Huang and RW Liu
PROCEEDINGS OF THE IEEE INTERNATIONAL SYMPOSIUM ON CIRCUITS AND SYSTEMS 1, pp. 745-748 (1997)
External charge state detection of a double-dot system [pdf]
I. Amlani, A.O. Orlov, G.L. Snider, C.S. Lent and G.H. Bernstein
APPLIED PHYSICS LETTERS 71, pp. 1730-1732 (1997)
Differential charge detection for quantum-dot cellular automata [pdf]
I. Amlani, A.O. Orlov, G.L. Snider and G.H. Bernstein
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B: MICROELECTRONICS AND NANOMETER STRUCTURES 15, pp. 2832-2835 (1997)
A Device Architecture for Computing with Quantum Dots [pdf]
C.S. Lent and P.D. Tougaw
PROCEEDINGS OF THE IEEE 85, pp. 541-557 (1997)
Transmission zero engineering in lateral double-barrier resonant tunneling devices [pdf]
Z. Shao, W. Porod and C.S. Lent
APPLIED PHYSICS LETTERS 68, pp. 2120-2122 (1996)
Study of wave phenomena in physically coupled device arrqays using the Helmholtz equation as a model
W. Porod, HK Harbury and C.S. Lent
FOURTH WORKSHOP ON PHYSICS AND COMPUTATION – PHYSCOMP’96 (1996)
Quantum cellular neural networks [pdf]
G. Toth, C.S. Lent, P.D. Tougaw, Y. Brazhnik, W. Weng, W. Porod, R.W. Liu and Y.F. Huang
SUPERLATTICES AND MICROSTRUCTURES 20, pp. 473-478 (1996)
Quantum Cellular Automata: Computing with Quantum Dot Molecules
P.D. Tougaw
PH.D. THESIS, UNIVERSITY OF NOTRE DAME (1996)
Practical issues in the realization of quantum-dot cellular automata [pdf]
G.H. Bernstein, G. Bazan, M. Chen, C.S. Lent, J.L. Merz, A.O. Orlov, W. Porod, G.L. Snider and P.D. Tougaw
SUPERLATTICES AND MICROSTRUCTURES 20, pp. 447-459 (1996)
Dynamic behavior of quantum cellular automata [pdf]
P.D. Tougaw and C.S. Lent
JOURNAL OF APPLIED PHYSICS 80, pp. 4722-4736 (1996)
Charge detector realization for AlGaAs/GaAs quantum-dot cellular automata [pdf]
G. Bazan, A.O. Orlov, G.L. Snider and G.H. Bernstein
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B 14, pp. 4046-4050 (1996)
Effect of stray charge on quantum cellular automata [pdf]
P.D. Tougaw and C.S. Lent
JAPANESE JOURNAL OF APPLIED PHYSICS 34, pp. 4373-4375 (1995)
An eigenvalue method for open-boundary quantum transmission problems [pdf]
Z. Shao, W. Porod, C.S. Lent and D.J. Kirkner
JOURNAL OF APPLIED PHYSICS 78, pp. 2177-2186 (1995)
Transmission resonances and zeros in quantum waveguide systems with attached resonators [pdf]
Z. Shao, W. Porod and C.S. Lent
PHYSICAL REVIEW B 49, pp. 7453-7465 (1994)
Quantum cellular automata: the physics of computing with arrays of quantum dot molecules [pdf]
C.S. Lent, P.D. Tougaw and W. Porod
WORKSHOP ON PHYSICS AND COMPUTATION, PHYSCOMP’94 PROCEEDINGS pp. 5-13 (1994)
Logical devices implemented using quantum cellular automata [pdf]
P.D. Tougaw and C.S. Lent
JOURNAL OF APPLIED PHYSICS 75, pp. 1818-1825 (1994)
Conductance quantization in a periodically modulated channel [pdf]
M. Leng and C.S. Lent
PHYSICAL REVIEW B 50, pp. 10823-10833 (1994)
Bistable saturation due to single electron charging in rings of tunnel junctions [pdf]
C.S. Lent and P.D. Tougaw
JOURNAL OF APPLIED PHYSICS 75, pp. 4077-4080 (1994)
Quantum transport [pdf]
C.S. Lent, W. Porod, S. Bandyopadhyay and G.H. Bernstein
UNIVERSITY OF NOTRE DAME TECH REPORT (1993)
Quantum cellular automata [pdf]
C.S. Lent, P.D. Tougaw, W. Porod and G.H. Bernstein
NANOTECHNOLOGY 4, pp. 49-57 (1993)
Lines of interacting quantum-dot cells: A binary wire [pdf]
C.S. Lent and P.D. Tougaw
JOURNAL OF APPLIED PHYSICS 74, pp. 6227-6233 (1993)
Bistable saturation in coupled quantum-dot cells [pdf]
C.S. Lent, P.D. Tougaw and W. Porod
JOURNAL OF APPLIED PHYSICS 74, pp. 3558-3566 (1993)
Bistable saturation in coupled quantum dots for quantum cellular automata [pdf]
C.S. Lent, P.D. Tougaw and W. Porod
APPLIED PHYSICS LETTERS 62, pp. 714-716 (1993)
Edge states in a circular quantum dot [pdf]
C.S. Lent
PHYSICAL REVIEW B 43, pp. 4179-4186 (1991)
The numerical simulation of electron transmission through a two-dimensional quantum device by the finite element method
D.J. Kirkner, C.S. Lent and S. Sivaprakasam
INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING 29, pp. 1527-1537 (1990)
Source:
http://www3.nd.edu/~qcahome/ndgrouprefs.html

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