Caspar Groiseau scite author profile

We present a discrete-time, one-dimensional quantum walk based on the entanglement between the momentum of ultracold rubidium atoms (the walk space) and two internal atomic states (the "coin" degree of freedom). Our scheme is highly flexible and can provide a platform for a wide range of applications such as quantum search algorithms, the observation of topological phases, and the realization of walks with higher dimensionality. Along with the investigation of the quantum-to-classical transition, we demonstrate the distinctive features of a quantum walk and contrast them to those of its classical counterpart. Also, by manipulating either the walk or coin operator, we show how the walk dynamics can be steered or even reversed.

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Experimental realization of a momentum-space quantum walk

Dadras

Gresch

Groiseau

et al. 2019

Phys. Rev. A

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We report on a discrete-time quantum walk that uses the momentum of ultra-cold rubidium-87 atoms as the walk space and two internal atomic states as the coin degree of freedom. Each step of the walk consists of a coin toss (a microwave pulse) followed by a unitary shift operator (a resonant ratchet pulse). We carry out a comprehensive experimental study on the effects of various parameters, including the strength of the shift operation, coin parameters, noise, and initialization of the system on the behavior of the walk. The walk dynamics can be well controlled in our experiment; potential applications include atom interferometry and engineering asymmetric walks.

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Quantum to classical walk transitions tuned by spontaneous emissions

Clark

Groiseau

Shaw

et al. 2021

Phys. Rev. Research

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Caspar Groiseau

Quantum Walk in Momentum Space with a Bose-Einstein Condensate

Experimental realization of a momentum-space quantum walk

Quantum to classical walk transitions tuned by spontaneous emissions

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