Author:
Roget Mathieu,Herzog Basile,Di Molfetta Giuseppe
Abstract
AbstractWe propose a new quantum numerical scheme to control the dynamics of a quantum walker in a two dimensional space–time grid. More specifically, we show how, introducing a quantum memory for each of the spatial grid, this result can be achieved simply by acting on the initial state of the whole system, and therefore can be exactly controlled once for all. As example we prove analytically how to encode in the initial state any arbitrary walker’s mean trajectory and variance. This brings significantly closer the possibility of implementing dynamically interesting physics models on medium term quantum devices, and introduces a new direction in simulating aspects of quantum field theories (QFTs), notably on curved manifold.
Publisher
Springer Science and Business Media LLC
Reference35 articles.
1. Glaser, S. J. et al. Training schrödinger’s cat: Quantum optimal control. Eur. Phys. J. D 69, 1–24 (2015).
2. Dong, D. & Petersen, I. R. Quantum control theory and applications: A survey. IET Control Theory Appl. 4, 2651–2671 (2010).
3. Georgescu, I. M., Ashhab, S. & Nori, F. Quantum simulation. Rev. Modern Phys. 86, 153 (2014).
4. Aharonov, Y., Davidovich, L. & Zagury, N. Quantum random walks. Phys. Rev. A 48, 1687 (1993).
5. Grossing, G. & Zeilinger, A. Quantum cellular automata. Complex Syst. 2, 11 (1988).
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