Experimental Raman adiabatic transfer of optical states in rubidium

Juergen Appel; Eden Figueroa; Frank Vewinger; Peter Marzlin; Alexander Lvovsky

Experimental Raman adiabatic transfer of optical states in rubidium

ORAL

Abstract

An essential element of a quantum optical communication network is a tool for transferring and/or distributing quantum information between optical modes (possibly of different frequencies) in a loss- and decoherence-free fashion. We present a theory [1] and an experimental demonstration [2] of a protocol for routing and frequency conversion of optical quantum information via electromagnetically-induced transparency in an atomic system with multiple excited levels. Transfer of optical states between different signal modes is implemented by adiabatically changing the control fields. The proof-of-principle experiment is performed using the hyperfine levels of the rubidium D1 line. [1] F. Vewinger, J. Appel, E. Figueroa, A. I. Lvovsky, quant-ph/0611181 [2] J. Appel, K.-P. Marzlin, A. I. Lvovsky, Phys. Rev. A \textbf{73}, 013804 (2006)

June 8, 2007, 12:18 PM – June 8, 2007, 12:30 PM

Authors

Juergen Appel
- IQIS, University of Calgary
- University of Calgary
- IQIS U of C
- Institute for Quantum Information Science
Eden Figueroa
- {University of Calgary}
- IQIS U of C
- University of Calgary
Frank Vewinger
- University of Bonn
Peter Marzlin
- University of Calgary
- IQIS, University of Calgary
- Institute for Quantum Information Science
- IQIS, Univ. of Calgary, Canada
Alexander Lvovsky
- IQIS, University of Calgary
- IQIS U of C
- Institute for Quantum Information Science
- University of Calgary