History Dependent Quantum Random Walks as Quantum Lattice Gas Automata

Authors

Peter John Love, Haverford College

Document Type

Journal Article

Role

Author

Standard Number

0022-2488

Journal Title

Journal of Mathematical Physics

Volume

55

Issue

12

Publication Date

2014

Abstract

Quantum Random Walks (QRW) were first defined as one-particle sectors of Quantum Lattice Gas Automata (QLGA). Recently, they have been generalized to include history dependence, either on previous coin (internal, i.e., spin or velocity) states or on previous position states. These models have the goal of studying the transition to classicality, or more generally, changes in the performance of quantum walks in algorithmic applications. We show that several history dependent QRW can be identified as one-particle sectors of QLGA. This provides a unifying conceptual framework for these models in which the extra degrees of freedom required to store the history information arise naturally as geometrical degrees of freedom on the lattice.

Repository Citation

Shakeel, Asif; Meyer, David A.; Love, Peter J. "History dependent quantum random walks as quantum lattice gas automata" Journal of Mathematical Physics 55(12): Article No. 122204. 2014.