Sequences of Selective Rotation Operators to Engineer Interactions for Quantum Annealing on Three Qutrits
The material was received by the Editorial Board: 27.04.2018
Abstract We have done simulating of factorization the number 15 on three qutrits S = 1 by quantum annealing. We assume that strong one-spin interaction allow selectively operate on different transitions between levels of the each qutrit. We present a sequence of selective rotation operators to engineer from dipole-dipole interaction a time-dependent effective Hamiltonian necessary for solving the problem. Also we find dependence of fidelity versus various parameters: magnetic field, total annealing time, and duration of time step, when the continuous variation of the Hamiltonian is replaced by a discrete one.
Keywords
quantum annealing, factorization, qutrit, selective rotation operators
УДК 530.145: 519.876.5
Sequences of Selective Rotation Operators to Engineer Interactionsfor Quantum Annealing on Three Qutrits References: Zobov V. E., Pichkovskiy I. S. Sequences of Selective Rotation Operators to Engineer Interactions for Quantum Annealing on Three Qutrits. Siberian Journal of Physics . 2019, vol. 14, no. 1. P. 5–16. (in Russ.). DOI: 10.25205/2541-9447-2019-14-1-5-16