Berlin 2005 – wissenschaftliches Programm

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Q: Quantenoptik und Photonik

Q 65: Fallen & Kühlung II

Q 65.6: Vortrag

Mittwoch, 9. März 2005, 12:15–12:30, HU 1070

Observation of atom-photon entanglement — •Jürgen Volz¹, Markus Weber¹, Wenjamin Rosenfeld¹, Daniel Schlenk¹, Christian Kurtsiefer², and Harald Weinfurter^1,3 — ¹Sektion Physik der LMU München — ²National University of Singapore — ³Max-Planck Institut für Quantenoptik, Garching

Entanglement between atoms and photons [1,2] is a key resource for new applications in quantum communication and information because it combines the ability to store information (atom) with an effective communication channel (photon). Furthermore it enables one to entangle two atoms separated by large distances by the joint detection of the photons coming from each of the atoms [1,3]. The space-like separation together with the high detection efficiency of the atoms finally should allow a loophole-free test of Bell’s inequality.

In our experiment we excite a single ⁸⁷Rb atom - stored in an optical dipole trap - by a short optical π-pulse and detect the subsequent spontaneously emitted single photon. Due to conservation of angular momentum the polarization of the emitted photon and the atomic magnetic quantum number are entangled. A STIRAP technique is used to analyze the atomic qubit in different measurement bases. Here we report the observation of strong atom-photon correlations in conjugate measurement bases resulting in an entanglement fildelity of F=0.85.

[1] K. Saucke, Diploma thesis, University Munich, (2002).

[2] B. Blinov et al., Nature 428, 153 (2004).

[3] C. Simon et al., Phys. Rev. Lett. 91, 110405 (2003).