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An Ultralocal Classical and Quantum Gravity Theory

General Relativity and Quantum Cosmology 2020-09-04 v3 High Energy Physics - Theory Mathematical Physics math.MP

Abstract

An ultralocal form of any classical field theory eliminates all spatial derivatives in its action functional, e.g., in its Hamiltonian functional density. It has been applied to covariant scalar field theories and even to Einstein's general relativity, by Pilati, as an initial term in a perturbation series that aimed to restore all omitted derivatives. Previously, the author has quantized ultralocal scalar fields by affine quantization to show that these non-renormalizanle theories can be correctly quantized by affine quantization; the story of such scalar models is discussed in this paper. The present paper will also show that ultralocal gravity can be successfully quantized by affine quantization. The purpose of this study is that a successful affine quantization of any ultralocal field problem implies that, with properly restored derivatives, the classical theory can, in principle, be guaranteed a successful result using either a canonical quantization or an affine quantization. In particular, Einstein's gravity requires an affine quantization, and it will be successful.

Keywords

Cite

@article{arxiv.2007.05875,
  title  = {An Ultralocal Classical and Quantum Gravity Theory},
  author = {John R. Klauder},
  journal= {arXiv preprint arXiv:2007.05875},
  year   = {2020}
}

Comments

8 pages; an ultralocal gravity is quantized proving that full gravity can be affine quantized: a minor equation or two errors fixed

R2 v1 2026-06-23T17:02:54.720Z