Deterministic entanglement of ions in thermal states of motion

Open Access

1 February 2009

journal article
research article
Published by IOP Publishing in New Journal of Physics

Vol. 11 (2)
https://doi.org/10.1088/1367-2630/11/2/023002

Abstract

We give a detailed description of the implementation of a Molmer-Sorensen gate entangling two Ca-40(+) ions using a bichromatic laser beam near-resonant with a quadrupole transition. By amplitude pulse shaping and compensation of ac-Stark shifts we achieve a fast gate operation without compromising the error rate. Subjecting different input states to concatenations of up to 21 individual gate operations reveals Bell state fidelities above 0.80. In principle, the entangling gate does not require ground state cooling of the ions as long as the Lamb-Dicke criterion is fulfilled. We present the first experimental evidence for this claim and create Bell states with a fidelity of 0.974( 1) for ions in a thermal state of motion with a mean phonon number of (n) over bar = 20(2) in the mode coupling to the ions' internal states.

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