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Results:
1-15
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Results: 15
Authors:
He, HX
Zhu, JS
Tao, NJ
Nagahara, LA
Amlani, I
Tsui, R
Citation: Hx. He et al., A conducting polymer nanojunction switch, J AM CHEM S, 123(31), 2001, pp. 7730-7731
Authors:
Bogozi, A
Lam, O
He, HX
Li, CZ
Tao, NJ
Nagahara, LA
Amlani, I
Tsui, R
Citation: A. Bogozi et al., Molecular adsorption onto metallic quantum wires, J AM CHEM S, 123(19), 2001, pp. 4585-4590
Authors:
Amlani, I
Orlov, AO
Kummamuru, RK
Bernstein, GH
Lent, CS
Snider, GL
Citation: I. Amlani et al., Experimental demonstration of a leadless quantum-dot cellular automata cell, APPL PHYS L, 77(5), 2000, pp. 738-740
Authors:
Orlov, AO
Amlani, I
Kummamuru, RK
Ramasubramaniam, R
Toth, G
Lent, CS
Bernstein, GH
Snider, GL
Citation: Ao. Orlov et al., Experimental demonstration of clocked single-electron switching in quantum-dot cellular automata, APPL PHYS L, 77(2), 2000, pp. 295-297
Authors:
Snider, GL
Orlov, AO
Amlani, I
Bernstein, GH
Lent, CS
Merz, JL
Porod, W
Citation: Gl. Snider et al., Quantum-dot cellular automata: Line and majority logic gate, JPN J A P 1, 38(12B), 1999, pp. 7227-7229
Authors:
Bernstein, GH
Amlani, I
Orlov, AO
Lent, CS
Snider, GL
Citation: Gh. Bernstein et al., Observation of switching in a quantum-dot cellular automata cell, NANOTECHNOL, 10(2), 1999, pp. 166-173
Authors:
Amlani, I
Orlov, AO
Snider, GL
Lent, CS
Porod, W
Bernstein, GH
Citation: I. Amlani et al., Experimental demonstration of electron switching in a quantum-dot cellularautomata (QCA) cell, SUPERLATT M, 25(1-2), 1999, pp. 273-278
Authors:
Snider, GL
Orlov, AO
Amlani, I
Zuo, X
Bernstein, GH
Lent, CS
Merz, JL
Porod, W
Citation: Gl. Snider et al., Quantum-dot cellular automata, J VAC SCI A, 17(4), 1999, pp. 1394-1398
Authors:
Snider, GL
Orlov, AO
Amlani, I
Bernstein, GH
Lent, CS
Merz, JL
Porod, W
Citation: Gl. Snider et al., Quantum-dot cellular automata, MICROEL ENG, 47(1-4), 1999, pp. 261-263
Authors:
Toth, G
Orlov, AO
Amlani, I
Lent, CS
Bernstein, GH
Snider, GL
Citation: G. Toth et al., Conductance suppression due to correlated electron transport in coupled double quantum dots, PHYS REV B, 60(24), 1999, pp. 16906-16912
Authors:
Amlani, I
Orlov, AO
Toth, G
Bernstein, GH
Lent, CS
Snider, GL
Citation: I. Amlani et al., Digital logic gate using quantum-dot cellular automata, SCIENCE, 284(5412), 1999, pp. 289-291
Authors:
Snider, GL
Orlov, AO
Amlani, I
Zuo, X
Bernstein, GH
Lent, CS
Merz, JL
Porod, W
Citation: Gl. Snider et al., Quantum-dot cellular automata: Review and recent experiments (invited), J APPL PHYS, 85(8), 1999, pp. 4283-4285
Authors:
Porod, W
Lent, CS
Bernstein, GH
Orlov, AO
Amlani, I
Snider, GL
Merz, JL
Citation: W. Porod et al., Quantum-dot cellular automata: computing with coupled quantum dots, INT J ELECT, 86(5), 1999, pp. 549-590
Authors:
Orlov, AO
Amlani, I
Toth, G
Lent, CS
Bernstein, GH
Snider, GL
Citation: Ao. Orlov et al., Experimental demonstration of a binary wire for quantum-dot cellular automata, APPL PHYS L, 74(19), 1999, pp. 2875-2877
Authors:
Amlani, I
Orlov, AO
Snider, GL
Lent, CS
Bernstein, GH
Citation: I. Amlani et al., Demonstration of a functional quantum-dot cellular automata cell, J VAC SCI B, 16(6), 1998, pp. 3795-3799
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1-15
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