Entanglement between remote continuous-variable quantum systems: Effects of transmission loss
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TL;DR: In this article, the effects of losses on the entanglement created between two separate atomic gases by optical probing and homodyne detection of the transmitted light were studied and compared with the entangling in a pair of light pulses generated by an EPR source.
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Abstract: We study the effects of losses on the entanglement created between two separate atomic gases by optical probing and homodyne detection of the transmitted light. The system is well-described in the Gaussian state formulation. Analytical results quantifying the degree of entanglement between the two gases are derived and compared with the entanglement in a pair of light pulses generated by an Einstein-Podolsky-Rosen (EPR) source. For low (high) transmission losses, the highest degree of entanglement is obtained by probing with squeezed (antisqueezed) light. In an asymmetric setup where light is only sent one way through the atomic samples, we find that the logarithmic negativity of entanglement attains a constant value -log{sub 2}(N) with N=1/3, irrespective of the loss along the transmission line.
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Citations
Gaussian Description of Squeezed Light and Magnetometry
Vivi Petersen
- 01 Jan 2006
TL;DR: In Danish and English as mentioned in this paper, the authors present a Danish-English dictionary with a Danish language version: (1.2.4.1) (2.3.1.
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