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Paper detail

Chiral Quantum Walks

Given its importance to many other areas of physics, from condensed matter physics to thermodynamics, time-reversal symmetry has had relatively little influence on quantum information science. Here we develop a network-based picture of time-reversal theory, classifying Hamiltonians and quantum circuits as time-symmetric or not in terms of the elements and geometries of their underlying networks. Many of the typical circuits of quantum information science are found to exhibit time-asymmetry. Moreover, we show that time-asymmetry in circuits can be controlled using local gates only, and can simulate time-asymmetry in Hamiltonian evolution. We experimentally implement a fundamental example in which controlled time-reversal asymmetry in a palindromic quantum circuit leads to near-perfect transport. Our results pave the way for using time-symmetry breaking to control coherent transport, and imply that time-asymmetry represents an omnipresent yet poorly understood effect in quantum information science.

preprint2016arXivOpen access
Dawei LuJacob D. BiamonteJun LiHang LiTomi H. JohnsonVille BergholmMauro FaccinZoltán ZimborásRaymond LaflammeJonathan BaughSeth Lloyd
math-phphysics.chem-phmath.MPquant-ph
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Dawei LuJacob D. BiamonteJun LiHang LiTomi H. JohnsonVille BergholmMauro FaccinZoltán ZimborásRaymond LaflammeJonathan BaughSeth Lloyd

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