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Quantization of Emergent Gravity

High Energy Physics - Theory 2015-02-03 v4 Mathematical Physics math.MP Symplectic Geometry

Abstract

Emergent gravity is based on a novel form of the equivalence principle known as the Darboux theorem or the Moser lemma in symplectic geometry stating that the electromagnetic force can always be eliminated by a local coordinate transformation as far as spacetime admits a symplectic structure, in other words, a microscopic spacetime becomes noncommutative (NC). If gravity emerges from U(1) gauge theory on NC spacetime, this picture of emergent gravity suggests a completely new quantization scheme where quantum gravity is defined by quantizing spacetime itself, leading to a dynamical NC spacetime. Therefore the quantization of emergent gravity is radically different from the conventional approach trying to quantize a phase space of metric fields. This approach for quantum gravity allows a background independent formulation where spacetime as well as matter fields is equally emergent from a universal vacuum of quantum gravity.

Keywords

Cite

@article{arxiv.1312.0580,
  title  = {Quantization of Emergent Gravity},
  author = {Hyun Seok Yang},
  journal= {arXiv preprint arXiv:1312.0580},
  year   = {2015}
}

Comments

113 pages (We touch only a tip of the iceberg!); to be published in Int. J. Mod. Phys. A

R2 v1 2026-06-22T02:19:12.289Z