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arxiv: 2205.07732 · v2 · pith:NORBCPD2new · submitted 2022-05-16 · 🪐 quant-ph · cond-mat.quant-gas

Light-shift induced behaviors observed in momentum-space quantum walks

classification 🪐 quant-ph cond-mat.quant-gas
keywords momentum-spacequantumbehaviorscondensatedistributionsmodelmomentumspinor
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Over the last decade there have been many advances in studies of quantum walks (QWs) including a momentum-space QW recently realized in our spinor Bose-Einstein condensate system. This QW possessed behaviors that generally agreed with theoretical predictions; however, it also showed momentum distributions that were not adequately explained by the theory. We present a theoretical model which proves that the coherent dynamics of the spinor condensate is sufficient to explain the experimental data without invoking the presence of a thermal cloud of atoms as in the original theory. Our numerical findings are supported by an analytical prediction for the momentum distributions in the limit of zero-temperature condensates. This current model provides more complete explanations to the momentum-space QWs that can be applied to study quantum search algorithms and topological phases in Floquet-driven systems.

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