Quantum Networks with Atoms and Photons
Abstract
Trapped atomic ions are standards for quantum information processing, as all of the fundamental quantum operations have been demonstrated in small collections of atoms. Current work is concentrated on scaling ion traps to larger numbers of interacting qubits and the generation of massive entangled states. We discuss progress in the quantum networking of trapped atomic ions, using the Coulomb interaction for demonstrations of simple quantum simulations of magnetism, ultrafast laser pulses for entanglement, and finally probabilistic photonic interactions to bridge entanglement over long distances.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 2013
- Accession Number
- AD1068426
Entities
People
- A. Manning
- Albert Lee
- B. Neyenhuis
- C. Figgatt
- C. Senko
- Christopher Monroe
- Chunjun Cao
- D. Hucul
- Daniel J. Hayes
- J. Cole Smith
- J. Mizrahi
- K. Wright
- Karl Johnson
- Philip Richerme
- Rajibul Islam
- S. Debnath
- S. Korenblit
- Susan Clark
- T. Choi
- V. Inlek
- W. Campbell
Organizations
- University of Maryland