# The present situation in quantum theory and its merging with general   relativity

**Authors:** Andrei Khrennikov

arXiv: 1704.04679 · 2018-07-18

## TL;DR

This paper reviews the core issues in quantum theory and its difficulties in merging with general relativity, proposing a causal, classical-like model as a potential unification approach.

## Contribution

It introduces a random field model that reproduces quantum and quantum field theory formalisms, offering a new perspective for unification with gravity.

## Key findings

- Highlighting infinities as a key obstacle in QFT-GR unification
- Proposing a classical-like causal model for quantum phenomena
- Discussing non-Hilbertian approaches and their implications

## Abstract

We discuss the problems of quantum theory (QT) complicating its merging with general relativity (GR). QT is treated as a general theory of micro-phenomena - a bunch of models. Quantum mechanics (QM) and quantum field theory (QFT) are the most widely known (but, e.g., Bohmian mechanics is also a part of QT). The basic problems of QM and QFT are considered in interrelation. For QM, we stress its nonrelativistic character and the presence of spooky action at a distance. For QFT, we highlight the old problem of infinities. And this is the main point of the paper: it is meaningless to try to unify QFT so heavily suffering of infinities with GR. We also highlight difficulties of the QFT-treatment of entanglement. We compare the QFT and QM based measurement theories by presenting both theoretical and experimental viewpoints. Then we discuss two basic mathematical constraints of both QM and QFT, namely, the use of real (and, hence, complex) numbers and the Hilbert state space. We briefly present non-Archimedean and non-Hilbertian approaches to QT and their consequences. Finally, we claim that, in spite of the Bell theorem, it is still possible to treat quantum phenomena on the basis of a classical-like causal theory. We present a random field model generating the QM and QFT formalisms. This emergence viewpoint can serve as the basis for unification of novel QT (may be totally different from presently powerful QM and QFT) and general relativity GR. (It may happen that the latter would also be revolutionary modified.)

## Full text

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## References

88 references — full list in the complete paper: https://tomesphere.com/paper/1704.04679/full.md

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Source: https://tomesphere.com/paper/1704.04679