General Relativistic Quantum Mechanics deriving Electroweak and Gravitational Interactions
Abstract
A gauge theory with an indefinite metric without negative probabilities is given by extending quantum mechanics, where a general metric is introduced, and the invariance under the general linear transformation is imposed on the space of quantum states. On this basis, we construct and investigate a chiral sextet model, which has one more Lorentz symmetry in the gauge space, to derive much properties of the standard electroweak theory, and also Einstein gravity, when the double Lorentz symmetry sp...
Description / Details
A gauge theory with an indefinite metric without negative probabilities is given by extending quantum mechanics, where a general metric is introduced, and the invariance under the general linear transformation is imposed on the space of quantum states. On this basis, we construct and investigate a chiral sextet model, which has one more Lorentz symmetry in the gauge space, to derive much properties of the standard electroweak theory, and also Einstein gravity, when the double Lorentz symmetry spontaneously fuses into one.
Source: arXiv:2601.12668v1 - http://arxiv.org/abs/2601.12668v1 PDF: https://arxiv.org/pdf/2601.12668v1 Original Link: http://arxiv.org/abs/2601.12668v1
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Jan 19, 2026
General Physics
Physics
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