Spectral Magnetization Ratchets with Discrete Time Quantum Walks

Abstract

We predict and theoretically study in detail the ratchet effect for the spectral magnetization of periodic discrete time quantum walks (DTQWs) --- a repetition of a sequence of m different DTQWs. These generalized DTQWs are achieved by varying the corresponding coin operator parameters periodically with discrete time. We consider periods m=1,2,3. The dynamics of m-periodic DTQWs is characterized by a two-band dispersion relation ω(m)(k), where k is the wave vector. We identify a generalized parity symmetry of m-periodic DTQWs. The symmetry can be broken for m=2,3 by proper choices of the coin operator parameters. The obtained symmetry breaking results in a ratchet effect, i.e. the appearance of a nonzero spectral magnetization Ms(ω). This ratchet effect can be observed in the framework of continuous quantum measurements of the time-dependent correlation function of periodic DTQWs.