We review recent experimental progress towards quantum information processing and quantum simulation using neutral atoms in two-dimensional (2D) arrays of optical microtraps as 2D registers of qubits. We describe a scalable quantum information architecture based on micro-fabricated optical elements, simultaneously targeting the important issues of single-site addressability and scalability. This approach provides flexible and integrable configurations for quantum state storage, manipulation, and retrieval. We present recent experimental results on the initialization and coherent one-qubit rotation of up to 100 individually addressable qubits, the coherent transport of atomic quantum states in a scalable quantum shift register, and discuss the feasibility of two-qubit gates in 2D microtrap arrays.
@article{arxiv.1108.5136,
title = {Scalable Architecture for Quantum Information Processing with Atoms in Optical Micro-Structures},
author = {Malte Schlosser and Sascha Tichelmann and Jens Kruse and Gerhard Birkl},
journal= {arXiv preprint arXiv:1108.5136},
year = {2011}
}
Comments
Review for special issue of "Quantum Information Processing" on "Quantum Information with Neutral Particles"