Decoherence of multi-dimensional entangled coherent states

Abstract

For entangled states of light both the amount of entanglement and the sensitivity to noise generally increase with the number of photons in the state. The entanglement-sensitivity tradeoff is investigated for a particular set of states, multi-dimensional entangled coherent states. Those states possess an arbitrarily large amount of entanglement E provided the number of photons is at least of order 22E. We calculate how fast that entanglement decays due to photon absorption losses and how much entanglement is left. We find that for very small losses the amount of entanglement lost is equal to 2/(2)≈ 2.89 ebits per absorbed photon, irrespective of the amount of pure-state entanglement E one started with. In contrast, for larger losses it tends to be the remaining amount of entanglement that is independent of E. This may provide a useful strategy for creating states with a fixed amount of entanglement.

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