B. E. King

TL;DR: In this article, the ground state of collective modes of motion of two trapped ions is reported, showing that heating of the modes of relative ion motion is substantially suppressed relative to that of the center-of-mass modes.

TL;DR: In this paper, a technique to selectively load atoms into the motional ground state of every third site of a one-dimensional optical lattice is presented. But this technique involves the sequential application of two independent lattices whose spatial periods differ by a factor of 3, resulting in parallel lattices with periods of dl51.5 mm ~long lattice and ds50.5mm ~short lattice.

TL;DR: In this paper, the authors discuss the benefits and drawbacks of this proposal, and describe possible experimentalimplementations, and present an overview of trapped-ion dynamics in this scheme.

TL;DR: In this paper, a simplified scheme for quantum logic with a collection of laser-cooled trapped atomic ions is described, where the fundamental controlled-NOT gate between a collective mode of ion motion and the internal states of a single ion can be reduced to a single laser pulse, and the need for a third auxiliary internal state can be eliminated.

TL;DR: In this article, a simplified scheme for quantum logic with a collection of laser-cooled trapped atomic ions is described, where the fundamental controlled-NOT gate between a collective mode of ion motion and the internal states of a single ion can be reduced to a single laser pulse, and the need for a third auxiliary internal state can be eliminated.