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Main Author: Simchi, Hamidreza
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2306.00030
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author Simchi, Hamidreza
author_facet Simchi, Hamidreza
contents Assuming that the first creatures of creation create a network, it is shown that how the network can be mapped to a topos discrete quantum manifold which is equipped with both the discrete calculus and the Alexandrov's algebra. We assign a locale to each nodes of the space-time network and show that in general, invariance under Lorentz transformations is no longer true. it is shown that the cosmological constant is non-zero and is proportional to the second power of the Hubble radius. By considering a population (set), it is shown that the entropy of the space-time network is quantized and increases as the network grows. In consequence the inflation of the world is expected phenomenon. Also, we show that how world inflation can be described based on the concept of truth object and truth value belong to the topos theory. It is shown that the quanta of vibrations, called netons, can be attributed to the vibration of space-time network, and it is expected that they will be observed in the future experiments related to cosmic background radiation. Finally, it is shown that the root of noncommutative geometry is in attributing the locale to the nodes of the space-time network instead of a point. This theory, which includes the roots, foundations and predictions, is called the many-node theory.
format Preprint
id arxiv_https___arxiv_org_abs_2306_00030
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Topos Many-Node Theory: Roots, Foundations and Predictions
Simchi, Hamidreza
General Relativity and Quantum Cosmology
Assuming that the first creatures of creation create a network, it is shown that how the network can be mapped to a topos discrete quantum manifold which is equipped with both the discrete calculus and the Alexandrov's algebra. We assign a locale to each nodes of the space-time network and show that in general, invariance under Lorentz transformations is no longer true. it is shown that the cosmological constant is non-zero and is proportional to the second power of the Hubble radius. By considering a population (set), it is shown that the entropy of the space-time network is quantized and increases as the network grows. In consequence the inflation of the world is expected phenomenon. Also, we show that how world inflation can be described based on the concept of truth object and truth value belong to the topos theory. It is shown that the quanta of vibrations, called netons, can be attributed to the vibration of space-time network, and it is expected that they will be observed in the future experiments related to cosmic background radiation. Finally, it is shown that the root of noncommutative geometry is in attributing the locale to the nodes of the space-time network instead of a point. This theory, which includes the roots, foundations and predictions, is called the many-node theory.
title Topos Many-Node Theory: Roots, Foundations and Predictions
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2306.00030