Multi-particle decoherence free subspaces in extended systems

Raisa Karasik; Karl-Peter Marzlin; Barry Sanders; K. Birgitta Whaley

Multi-particle decoherence free subspaces in extended systems

ORAL

Abstract

A decoherence-free subspace (DFS) is a collection of states that are immune to the noise derived from interactions with the environment. DFS is especially of interest for states involving two or more particles and is considered a prominent candidate for quantum memory and quantum information processing. We develop a method for finding DFS in real quantum systems. For systems with a homogeneous environment and energy-conserving coupling to the particles in 3D space, our methods show that perfect DFS exists for co-located particles only . This restriction does not exist for confined systems, such as atoms embedded in an optical fiber.

May 29, 2008, 3:36 PM – May 29, 2008, 3:48 PM

Authors

Raisa Karasik
- BQIC and Applied Science \& Technology, University of Califonia, Berkeley
- University of California/Berkeley
Karl-Peter Marzlin
- Institute for Quantum Information Science, University of Calgary
- IQIS, University of Calgary
- University of Calgary
Barry Sanders
- University of Calgary
- IQIS, University of Calgary
K. Birgitta Whaley
- BQIC and Dept. of Chemistry, University of California, Berkeley
- University of California/Berkeley