Add to ORKGWe introduce a multi-coin discrete quantum random walk where the amplitude for a coin flip depends upon previous tosses. Although the corresponding classical random walk is unbiased, a bias can be introduced into the quantum walk by varying the history dependence. By mixing the biased random walk with an unbiased one, the direction of the bias can be reversed leading to a new quantum version of Parrondo's paradox
Blanchard P, Hongler MO. Quantum random walks and piecewise deterministic evolutions. PHYSICAL REVIE...
Bayesian networks and their accompanying graphical models are widely used for prediction and analysi...
Quantum walks and random walks bear similarities and divergences. One of the most remarkable dispari...
Abstract. We introduce a multi-coin discrete quantum random walk where the amplitude for a coin flip...
Copyright © Institute of Physics and IOP PublishingWe introduce a multi-coin discrete quantum walk w...
Parrondo's paradox arises when two losing games are combined to produce a winning one. A history-dep...
Recently, a new model of quantum walk, utilizing recycled coins, was introduced; however little is y...
We investigate the possibility of implementing a sequence of quantum walks whose probability distrib...
Parrondo's paradox is a well-known counterintuitive phenomenon, where the combination of unfavorable...
AbstractHere we contract two associated games that consist of tossing biased coins. By using the dis...
Parrondo’s paradox arises when two losing games are combined to produce a winning one. A history-dep...
Classical randomized algorithms use a coin toss instruction to explore different evolutionary branch...
Quantum walks have emerged as an interesting approach to quantum information processing, exhibiting ...
We present a mathematical formalism for the description of unrestricted quantum walks with entangled...
4 pages and 4 figuresWe generalize the quantum random walk protocol for a particle in a one-dimensio...
Blanchard P, Hongler MO. Quantum random walks and piecewise deterministic evolutions. PHYSICAL REVIE...
Bayesian networks and their accompanying graphical models are widely used for prediction and analysi...
Quantum walks and random walks bear similarities and divergences. One of the most remarkable dispari...
Abstract. We introduce a multi-coin discrete quantum random walk where the amplitude for a coin flip...
Copyright © Institute of Physics and IOP PublishingWe introduce a multi-coin discrete quantum walk w...
Parrondo's paradox arises when two losing games are combined to produce a winning one. A history-dep...
Recently, a new model of quantum walk, utilizing recycled coins, was introduced; however little is y...
We investigate the possibility of implementing a sequence of quantum walks whose probability distrib...
Parrondo's paradox is a well-known counterintuitive phenomenon, where the combination of unfavorable...
AbstractHere we contract two associated games that consist of tossing biased coins. By using the dis...
Parrondo’s paradox arises when two losing games are combined to produce a winning one. A history-dep...
Classical randomized algorithms use a coin toss instruction to explore different evolutionary branch...
Quantum walks have emerged as an interesting approach to quantum information processing, exhibiting ...
We present a mathematical formalism for the description of unrestricted quantum walks with entangled...
4 pages and 4 figuresWe generalize the quantum random walk protocol for a particle in a one-dimensio...
Blanchard P, Hongler MO. Quantum random walks and piecewise deterministic evolutions. PHYSICAL REVIE...
Bayesian networks and their accompanying graphical models are widely used for prediction and analysi...
Quantum walks and random walks bear similarities and divergences. One of the most remarkable dispari...