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Random Invariant Tensors

Quantum Physics 2018-05-29 v1 General Relativity and Quantum Cosmology Mathematical Physics math.MP

Abstract

Invariant tensors are states in the (local) SU(2) tensor product representation but invariant under global SU(2) action. They are of importance in the study of loop quantum gravity. A random tensor is an ensemble of tensor states. An average over the ensemble is carried out when computing any physical quantities. The random tensor exhibits a phenomenon of `concentration of measure', saying that for any bipartition, the expected value of entanglement entropy of its reduced density matrix is asymptotically the maximal possible as the local dimension goes to infinity. This is also true even when the average is over the invariant subspace instead of the whole space for 44-valent tensors, although its entropy deficit is divergent. One might expect that for n5n\geq 5, nn-valent random invariant tensor would behavior similarly. However, we show that, the expected entropy deficit of reduced density matrix of such nn-valent random invariant tensor from maximum, is not divergent but a finite number. Under some special situation, the number could be even smaller than half a bit, which is the deficit of random pure state over the whole Hilbert space from maximum.

Keywords

Cite

@article{arxiv.1709.08370,
  title  = {Random Invariant Tensors},
  author = {Youning Li and Muxin Han and Dong Ruan and Bei Zeng},
  journal= {arXiv preprint arXiv:1709.08370},
  year   = {2018}
}

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R2 v1 2026-06-22T21:53:30.773Z