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6. Orlov, A.O., Kummamuru, R.K., Ramasubramaniam, R., Lent, C.S., Berstein,
G.H., Snider, G.L.: Clocked quantum-dot cellular automata shift register. Surf.
Sci.
532-535
, 1193-1198 (2003)
7. Amlani, I., Orlov, A.O., Toth, G., Bernstein, G.H., Lent, C.S., Snider, G.L.: Digital
logic gate using quantum-dot cellular automata. Science
284
, 289-291 (1999)
8. Amlani, I., Orlov, A., Snider, G.L., Lent, C.S.: Demonstration of a functional
quantum-dot cellular automata cell. J. Vac. Sci. Technol. B
16
, 3795-3799 (1998)
9. Lent, C.S., Snider, G.L., Bernstein, G.H., Porod, W., Orlov, A., Lieberman, M.,
Fehlner, T., Niemier, M.T., Kogge, P.: Quantum-Dot Cellular Automata. Kluwer
Academic Publishers, Boca Raton (2003)
10. Snider, G.L., Amlani, I., Orlov, A., Toth, G., Bernstein, G., Lent, C.S., Merz, J.L.,
Porod, W.: Quantum-dot cellular automata: line and majority gate logic. Jpn. J.
Appl. Phys.
38
, 7227-7229 (1999)
11. Kummamuru, R.V., Timler, J., Toth, G., Lent, C.S., Ramasubramaniam, R.,
Orlov, A., Bernstein, G.H.: Power gain and dissipation in a quantum-dot cellu-
lar automata latch. Appl. Phys. Lett.
81
, 1332-1334 (2002)
12. Toth, G., Lent, C.S.: Quasiadiabatic switching of metal-island quantum-dot cellular
automata. J. Appl. Phys.
85
(5), 2977-2984 (1999)
13. Imre, A., Csaba, G., Ji, L., Orlov, A., Bernstein, G.H., Porod, W.: Majority Logic
gate for magnetic quantum-dot cellular automata. Science
311
(5758), 205-208
(2006)
14. Csaba, G., et al.: Nanocomputing by field-coupled nanomagnets. IEEE Trans. Nan-
otechnol.
1
(4), 209-213 (2002)
15. Gyorgy, C., Porod, W.: Simulation of field coupled computing architectures based
on magnetic dot arrays. J. Comput. Electron.
1
(1), 87-91 (2002)
16. Parish, M.C.B.: Modeling of physical constraints on bistable magnetic quantum
cellular automata. Ph.D. thesis, University of London (2003)
17. Cowburn, R.P., Welland, M.E.: Room temperature magnetic quantum cellular
automata. Science
287
, 1466-1468 (2000)
18. Bernstein, G.H., Imre, A., Metlushko, V., Ji, L., Orlov, A., Csaba, G., Porod, W.:
Magnetic QCA systems. Microelectron. J.
36
, 619-624 (2005)
19. Lu, Y., Lent, C.S.: Theoretical study of molecular quantum-dot cellular automata.
J. Comput. Electron.
4
, 115-118 (2005)
20. Lent, C.S., Isaksen, B., Lieberman, M.: Molecular quantum-dot cellular automata.
J. Am. Chem. Soc.
125
, 1056-1063 (2003)
21. Jiao, J., Long, G.J., Grandjean, F., Beatty, A.M., Fehlner, T.P.: Building blocks for
the molecular expression of quantum cellular automata. Isolation and characteri-
zation of a covalently bonded square array of two ferrocenium and two ferrocene
complexes. J. Am. Chem. Soc.
125
(25), 7522-7523 (2003)
22. Lent, C.S., Isaksen, B.: Clocked molecular quantum-dot cellular automata. IEEE
Trans. Electron Devices
50
(9), 1890-1896 (2003)
23. Li, Z., Fehlner, T.P.: Molecular QCA cells. 2. Characterization of an unsymmetrical
dinuclear mixed-valence complex bound to a au surface by an organic linker. Inorg.
Chem.
42
(18), 5715-5721 (2003)
24. Li, Z., Beatty, A.M., Fehlner, T.P.: Molecular QCA cells. 1. Structure and function-
alization of an unsymmetrical dinuclear mixed-valence complex for surface binding.
Inorg. Chem.
42
(18), 5707-5714 (2003)
25. Qi, H., Sharma, S., Li, Z., Snider, G.L., Orlov, A.O., Lent, C.S., Fehlner, T.P.:
Molecular quantum cellular automata cells. Electric field driven switching of a sili-
con surface bound array of vertically oriented two-dot molecular quantum cellular
automata. J. Am. Chem. Soc.
125
(49), 15250-15259 (2003)
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