English

Macroscopic Quantum Phenomena from the Coupling Pattern and Entanglement Structure Perspective

Statistical Mechanics 2013-08-21 v1 Quantum Physics

Abstract

We explore in this paper ways to qualify and quantify the quantum entanglement E(M)E(M) between two macroscopic objects by way of model studies. Knowing that a macroscopic object is a composite, how does one determine E(M)E(M) in terms of the entanglements between its micro-constituents E(μ)E(\mu)? We assert that the notion of `levels of structure', the coupling strength between constituents in different levels, and the use of collective variables in each level are all pertinent factors. We consider two types of coupling, each constituent particle is coupled to only one other particle (1-to-1) versus it coupled to all particles (1-to-all). In the 1-1 case with pairwise interactions of equal strength, the entanglement is independent of the number of constituent particles NN in the macroscopic object. In the 1-to-all case the relative coordinates are decoupled and the center of mass (CoM) coupling scales with NN. We provide a proof of the conditions whereby the CoM variable decouples, a cause for the special role the CoM variable plays in the entanglement between the two such macroscopic objects. This qualitative behavior is largely not affected by fluctuations in the interaction strength. We also analyzed the entanglement pattern of 4 coupled oscillators in two pairs, representing the two objects A and B (or two adjacent levels of structure), each with two constituents. By assigning different coupling strengths we can investigate the interplay of inter-level entanglement with intra- level interactions. From the entanglement dynamics of the 4-oscillator system with varying coupling strength we see the entanglement between constituents meeting sudden death while the CoM variables may sustain over longer times. This offers another way to determine under what conditions quantum entanglement between macroscopic objects can persist.

Keywords

Cite

@article{arxiv.1308.4225,
  title  = {Macroscopic Quantum Phenomena from the Coupling Pattern and Entanglement Structure Perspective},
  author = {C H Chou and Y Subasi and B L Hu},
  journal= {arXiv preprint arXiv:1308.4225},
  year   = {2013}
}

Comments

39 pages. arXiv admin note: substantial text overlap with arXiv:1304.7839

R2 v1 2026-06-22T01:11:57.933Z