The realization exploits the polarization degree of freedom of single photons and their manipulation through linear optical elements. We use techniques of confidence amplification to reduce the acceptance error probability of the automaton.
Jan 28, 2020
Jan 29, 2020 · Abstract:We describe a physical implementation of a quantum finite automaton recognizing a well known family of periodic languages.
Jan 28, 2020 · The realization exploits the polarization degree of freedom of single photons and their manipulation through linear optical elements.
Abstract. We describe a physical implementation of a quantum finite automaton that recognizes a well-known family of periodic languages.
Jan 28, 2020 · A physical implementation of a quantum finite automaton recognizing a well known family of periodic languages and exploiting the ...
Jan 28, 2020 · We describe a physical implementation of a quantum finite automaton that recognizes a well-known family of periodic languages.
In this paper, we show that the performance of this automaton may be further improved by using strategies that suitably consider both the orthogonal output ...
To process input words, the automaton exploits the degree of polarization of single photons and, to reduce the acceptance error probability, a technique of ...
Jun 11, 2019 · In this letter, we have built a proof-of-principle optical QFA that can solve some certain problems more space-efficiently than a classical FA.
Sep 18, 2021 · To process input words, the automaton exploits the degree of polarization of single photons and, to reduce the acceptance error probability, a ...