Higher-Dimensional Quantum Walk in Terms of Quantum Bernoulli Noises

As a discrete-time quantum walk model on the one-dimensional integer lattice [Formula: see text] , the quantum walk recently constructed by Wang and Ye [Caishi Wang and Xiaojuan Ye, Quantum walk in terms of quantum Bernoulli noises, Quantum Information Processing 15 (2016), 1897–1908] exhibits quite different features. In this paper, we extend this walk to a higher dimensional case. More precisely, for a general positive integer [Formula: see text] , by using quantum Bernoulli noises we introduce a model of discrete-time quantum walk on the d-dimensional integer lattice [Formula: see text] , which we call the d-dimensional QBN walk. The d-dimensional QBN walk shares the same coin space with the quantum walk constructed by Wang and Ye, although it is a higher dimensional extension of the latter. Moreover we prove that, for a range of choices of its initial state, the d-dimensional QBN walk has a limit probability distribution of d-dimensional standard Gauss type, which is in sharp contrast with the case of the usual higher dimensional quantum walks. Some other results are also obtained.