Helical multiferroics for electric field controlled quantum information processing
Abstract
Magnetoelectric coupling in helical multiferroics allows to steer spin order with electric fields. Here we show theoretically that in a helical multiferroic chain quantum information processing as well as quantum phases are highly sensitive to electric (E) field. Applying E-field, the quantum state transfer fidelity can be increased and made directionally dependent. We also show that E field transforms the spin-density-wave/nematic or multipolar phases of frustrated ferromagnetic spin-1/2 chain in chiral phase with a strong magnetoelectric coupling. We find sharp reorganization of the entanglement spectrum as well as a large enhancement of fidelity susceptibility at Ising quantum phase transition from nematic to chiral states driven by electric field. These findings point to a new tool for quantum information with low power consumption.
Cite
@article{arxiv.1311.3439,
title = {Helical multiferroics for electric field controlled quantum information processing},
author = {M. Azimi and L. Chotorlishvili and S. K. Mishra and S. Greschner and T. Vekua and J. Berakdar},
journal= {arXiv preprint arXiv:1311.3439},
year = {2015}
}
Comments
7 pages