The Hamiltonians generating one-dimensional discrete-time quantum walks
Abstract
An explicit formula of the Hamiltonians generating one-dimensional discrete-time quantum walks is given. The formula is deduced by using the algebraic structure introduced previously. The square of the Hamiltonian turns out to be an operator without, essentially, the `coin register', and hence it can be compared with the one-dimensional continuous-time quantum walk. It is shown that, under a limit with respect to a parameter, which expresses the magnitude of the diagonal components of the unitary matrix defining the discrete-time quantum walks, the one-dimensional continuous-time quantum walk is obtained from operators defined through the Hamiltonians of the one-dimensional discrete-time quantum walks. Thus, this result can be regarded, in one-dimension, as a partial answer to a problem proposed by Ambainis.
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Cite
@article{arxiv.1306.3557,
title = {The Hamiltonians generating one-dimensional discrete-time quantum walks},
author = {Tatsuya Tate},
journal= {arXiv preprint arXiv:1306.3557},
year = {2017}
}
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9 pages