6533b825fe1ef96bd12828bc

RESEARCH PRODUCT

Quantum Walk Search with Time-Reversal Symmetry Breaking

Thomas G. Wong

subject

Statistics and ProbabilityPhysicsQuantum PhysicsGeneral Physics and AstronomyFOS: Physical sciencesStatistical and Nonlinear PhysicsQuantum searchVertex (geometry)T-symmetrySearch algorithmModeling and SimulationExcited stateQuantum mechanicsQuantum walkSymmetry breakingQuantum Physics (quant-ph)Mathematical PhysicsSubspace topology

description

We formulate Grover's unstructured search algorithm as a chiral quantum walk, where transitioning in one direction has a phase conjugate to transitioning in the opposite direction. For small phases, this breaking of time-reversal symmetry is too small to significantly affect the evolution: the system still approximately evolves in its ground and first excited states, rotating to the marked vertex in time $\pi \sqrt{N} / 2$. Increasing the phase does not change the runtime, but rather changes the support for the 2D subspace, so the system evolves in its first and second excited states, or its second and third excited states, and so forth. Apart from the critical phases corresponding to these transitions in the support, which become more frequent as the phase grows, this reveals that our model of quantum search is robust against time-reversal symmetry breaking.

yearjournalcountryeditionlanguage
2015-04-28
https://dx.doi.org/10.48550/arxiv.1504.07375