Decoherence in quantum Markov chains

Raqueline Azevedo Medeiros Santos; Renato Portugal; Marcelo Dutra Fragoso

doi:10.1007/s11128-013-0672-z

Decoherence in quantum Markov chains

Raqueline Azevedo Medeiros Santos^*
, Renato Portugal
, Marcelo Dutra Fragoso

^*Corresponding author for this work

Laboratório Nacional de Computação Científica

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

It is known that under some assumptions, the hitting time in quantum Markov chains is quadratically smaller than the hitting time in classical Markov chains. This work extends this result for decoherent quantum Markov chains. The decoherence is introduced using a percolation-like graph model, which allows us to define a decoherent quantum hitting time and to establish a decoherent-intensity range for which the decoherent quantum hitting time is quadratically smaller than the classical hitting time. The detection problem under decoherence is also solved with quadratic speedup in this range.

Original language	English
Pages (from-to)	559-572
Number of pages	14
Journal	Quantum Information Processing
Volume	13
Issue number	2
DOIs	https://doi.org/10.1007/s11128-013-0672-z
Publication status	Published - 1 Feb 2014
Externally published	Yes

Keywords

Decoherence
Percolation
Quantum hitting time
Quantum Markov chains

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abstract = "It is known that under some assumptions, the hitting time in quantum Markov chains is quadratically smaller than the hitting time in classical Markov chains. This work extends this result for decoherent quantum Markov chains. The decoherence is introduced using a percolation-like graph model, which allows us to define a decoherent quantum hitting time and to establish a decoherent-intensity range for which the decoherent quantum hitting time is quadratically smaller than the classical hitting time. The detection problem under decoherence is also solved with quadratic speedup in this range.",

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N2 - It is known that under some assumptions, the hitting time in quantum Markov chains is quadratically smaller than the hitting time in classical Markov chains. This work extends this result for decoherent quantum Markov chains. The decoherence is introduced using a percolation-like graph model, which allows us to define a decoherent quantum hitting time and to establish a decoherent-intensity range for which the decoherent quantum hitting time is quadratically smaller than the classical hitting time. The detection problem under decoherence is also solved with quadratic speedup in this range.

AB - It is known that under some assumptions, the hitting time in quantum Markov chains is quadratically smaller than the hitting time in classical Markov chains. This work extends this result for decoherent quantum Markov chains. The decoherence is introduced using a percolation-like graph model, which allows us to define a decoherent quantum hitting time and to establish a decoherent-intensity range for which the decoherent quantum hitting time is quadratically smaller than the classical hitting time. The detection problem under decoherence is also solved with quadratic speedup in this range.

KW - Decoherence

KW - Percolation

KW - Quantum hitting time

KW - Quantum Markov chains

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ER -

Decoherence in quantum Markov chains

Abstract

Keywords

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