Twisted rapid passage is a type of non-adiabatic rapid passage that gives rise to controllable quantum interference effects that were first observed experimentally in 2003. We show that twisted rapid passage sweeps can be used to implement a universal set of quantum gates that operate with high-fidelity. For each gate in the universal set, sweep parameter values are provided which simulations indicate will yield a quantum gate with error probability P_{e} < 10**(-4). Note that all gates in this universal set are driven by a **single** type of control field (twisted rapid passage), and the error probability for each gate falls below the rough-and-ready estimate for the accuracy threshold P_{a} ~ 10**(-4). The simulations suggest that the universal gate set produced by twisted rapid passage shows promise for use in a fault-tolerant scheme for quantum computing.
@article{arxiv.0810.0741,
title = {High-fidelity universal quantum gates through quantum interference},
author = {Ran Li and Frank Gaitan},
journal= {arXiv preprint arXiv:0810.0741},
year = {2010}
}
Comments
5 pages; 3 tables; no figures; discussion of reparameterization of sweeps added