1209.1081 (Mark Brezinski)
Mark Brezinski
The utilization and control of nonlocal quantum interactions is an area of active investigation. This is not limited to subatomic structures but extends to the macroscopic level. Nonlocal interactions can be from either entanglement or path indistinguishability (the path integral for larger systems), with the latter being further subdivided as discussed. These two distinct phenomenon have recently been treated often in the literature as essentially identical, which is problematic when utilizing them for practical applications. The confusion may lie in misunderstanding the physics of the type II spontaneous parameteric downconversion source (SPDS), which is used extensively with entanglement studies. This paper examines the distinction, and why it is important for practical applications, between quantum correlations from path indistinguishability versus entanglement. The path indistinguishability approaches discussed, under ambient conditions, are performed with a thermal source or, a coherent source (single photon wavepacket) when local entanglements in both arm have specific characteristics. The latter we will show has the property that it can surprisingly lead to coherence expansion rather than decoherence under the proper conditions. Nonlocal quantum correlations are a complex topic that extends beyond quantum entanglement.
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http://arxiv.org/abs/1209.1081
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