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Quantum Cellular Automata: a Short Overview of Molecular Problem

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Tsukerblat B., Palii A., Clemente-Juan J., Suaud N., Coronado E.
Acta Physica Polonica A
|
2018
|
vol. 133
|
issue 3
329-335
EN
In this article we summarize the study of the electronic states and electron-vibrational interactions in square-planar molecular entities playing the role of molecular cells in quantum cellular automata (QCA), a promising paradigm of quantum computing. The following issues are shortly discussed: 1) QCA as a paradigm of quantum computing; 2) molecular implementation of QCA; 3) vibronic coupling as the origin of charge trapping, encoding of binary information 4) non-linear cell-cell response; 4) spin-switching in molecular QCA based on mixed-valence cells; 5) multimode dynamic vibronic problem, the symmetry assisted approach.
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