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69. Wasio, N.A., Quardokus, R.C., Forrest, R.P., Corcelli, S.A., Lu, Y., Lent, C.S., Justaud,
F., Lapinte, C., Kandel, S.A.: STM imaging of three-metal-center molecules: comparison
of experiment and theory for two mixed-valence oxidation states. J. Phys. Chem. C 116,
25486-25492 (2012)
70. Quardokus, R.C., Wasio, N.A., Forrest, R.P., Lent, C.S., Corcelli, S.A., Christie, J.A.,
Henderson, K.W., Kandel, S.A.: Adsorption of diferrocenylacetylene on Au (111) studied
by scanning tunneling microscopy. Phys. Chem. Chem. Phys. 15, 6973-6981 (2013)
71. Haider, M.B., Pitters, J.L., DiLabio, G.A., Livadaru, L., Mutus, J.Y., Wolkow, R.A.:
Controlled coupling and occupation of silicon atomic quantum dots at room temperature.
Phys. Rev. Lett. 102, 046805 (2009)
72. Cowburn, R., Welland, M.: Room temperature magnetic quantum cellular automata.
Science 287, 1466-1468 (2000)
73. Imre, A., Csaba, G., Ji, L., Orlov, A., Bernstein, G., Porod, W.: Majority logic gate for
magnetic quantum-dot cellular automata. Science 311, 205-208 (2006)
74. Lambson, B., Carlton, D., Bokor, J.: Exploring the thermodynamic limits of computation
in integrated systems: magnetic memory, nanomagnetic logic, and the Landauer limit.
Phys. Rev. Lett. 107, 010604 (2011)
75. Bandyopadhyay, S., Das, B., Miller, A.: Supercomputing with spin-polarized single
electrons in a quantum coupled architecture. Nanotechnology 5, 113 (1994)
76. Tougaw, P.D., Lent, C.S., Porod, W.: Bistable saturation in coupled quantum-dot cells.
J. Appl. Phys. 74, 3558-3566 (1993)
77. Hänninen, I., Lu, H., Lent, C.S., Snider, G.L.: Energy recovery and logical reversibility in
adiabatic CMOS multiplier. In: Dueck, G.W., Miller, D. (eds.) RC 2013. LNCS, vol.
7948, pp. 25-35. Springer, Heidelberg (2013)
78. Blair, E.P., Liu, M., Lent, C.S.: Signal energy in quantum-dot cellular automata bit
packets. J. Comput. Theor. Nanosci. 8, 972-982 (2011)
79. Blair,
E.P.,
Lent,
C.S.:
Environmental
decoherence
stabilizes
quantum-dot
cellular
automata. J. Appl. Phys. 113, 124302-124302-124316 (2013)
80. Fijany, A., Toomarian, N., Spotnizt, M.: Implementing permutation matrices by use of
quantum dots. NASA Technical Briefs 25 (2001)
81. Tougaw, D., Khatun, M.: A scalable signal distribution network for quantum-dot cellular
automata. IEEE Trans. Nanotech. 12, 215-224 (2013)
82. Walus, K., Dysart, T.J., Jullien, G.A., Budiman, R.A.: QCADesigner: a rapid design and
simulation tool for quantum-dot cellular automata. IEEE Trans. Nanotechnol. 3, 26-31
(2004)
83. Dysart, T.J., Kogge, P.M., Lent, C.S., Liu, M.: An analysis of missing cell defects in
quantum-dot cellular automata. In: IEEE International Workshop on Design and Test of
Defect-Tolerant Nanoscale Architectures (NANOARCH) (2005)
84. Frost, S.E., Rodrigues, A.F., Giefer, C.A., Kogge, P.M.: In: IEEE Computer Society
Annual Symposium on VLSI 2003. Proceedings, pp. 19-25. IEEE (2003)
85. Frost, S.E., Rodrigues, A.F., Janiszewski, A.W., Rausch, R.T., Kogge, P.M.: In: First
Workshop on Non-Silicon, Computing, vol. 2 (2002)
86. Niemier, M.T., Kogge, P.M.: In: The 6th IEEE International Conference on Electronics,
Circuits and Systems, 1999. Proceedings of ICECS'99, vol. 3, pp. 1211-1215. IEEE
(1999)
87. Niemier, M.T., Kogge, P.M.: Exploring and exploiting wire-level pipelining in emerging
technologies. ACM SIGARCH Comput. Archit. News 29, 166-177 (2001)
88. Niemier, M.T., Kogge, P.M.: In: Proceedings of the Third Petaflops Workshop, with
Frontiers of Massively Parallel Processing (1999)
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