Thermal Spacetime Unification Theory (TSU)
This paper introduces the Thermal Spacetime Unification (TSU) theory, which proposes that time is not a fundamental dimension of the universe, but rather a fifth-order phenomenon — emerging from thermal interactions. In this framework, temperature exists prior to time and acts as a more primary physical quantity. Time, according to TSU, arises only as a result of thermal gradients and interactions, making it dependent on temperature rather than independent. The theory integrates thermodynamics with relativity and quantum mechanics, introducing modified equations and testable predictions, especially under extreme thermal conditions. Broader implications for cosmology, black hole physics, and the early universe are explored.
Files
History
Usage metrics
Categories
- Nuclear physics
- Solar physics
- Particle physics
- Thermodynamics and statistical physics
- Mathematical physics not elsewhere classified
- Quantum physics not elsewhere classified
- Quantum optics and quantum optomechanics
- Chemical thermodynamics and energetics
- Mesospheric, thermospheric, ionospheric and magnetospheric physics
- Quantum computation
- Quantum technologies
- Theoretical quantum chemistry
- Lasers and quantum electronics
- Mathematical aspects of classical mechanics, quantum mechanics and quantum information theory
- Foundations of quantum mechanics
- Quantum information, computation and communication
- Mathematical aspects of quantum and conformal field theory, quantum gravity and string theory
- Degenerate quantum gases and atom optics
- Quantum engineering systems (incl. computing and communications)
- Atomic and molecular physics
- Integrable systems (classical and quantum)
- Cell and nuclear division
- Nuclear and plasma physics not elsewhere classified
- Nuclear engineering (incl. fuel enrichment and waste processing and storage)
- Reaction engineering (excl. nuclear reactions)
- Cosmology and extragalactic astronomy
- Pacific Peoples astronomy and cosmology
- Astroparticle physics and particle cosmology
- General relativity and gravitational waves
- Mathematical aspects of general relativity
- Physical properties of materials
- Theory and design of materials
Keywords
Physics, Theorycosmology: theory - dark matter - galaxies: clusters: general - intergalactic mediumcosmology—galaxiescosmology: large-scale structure of UniverseCosmology and IntelligenceQuantum Physics teachingquantum physical theoryQuantum physics educationQuantum Physics (quant-ph)quantum theory atomQuantum theory HistoryQuantum theory -- Computer programsQuantum theory of atoms and moleculesQuantum theory -- Proceedings, conferences, collections, etc.Quantum theory of atoms in moleculequantum theory ofquantum theoretic parametersrelativity theoryRelativity TheoryRelativity theoryrelativity theoriesGeneral Relativity (GR)special relativity,gravity theoryGravity TheoryQuantum Gravity Effectsquantum gravity and cosmologyquantum gravityQuantum Gravity; Effective Field Theory; Fractal Geometry; Experimental Verificationquantum gravity, unified theory, quantum physics, PlanckQuantum gravityQuantum gravity, Pauli Exclusion Principle, Space – like interval, Geodesic, Quantum Entanglement.Quantum GravityBlack holes (Astronomy)Black holes (Astronomy) Planets Orbitsblack holes physicsBlack holes (Astronomy) Space and timetime dilation effectsTime dilationTime Dilationtime dilation
Licence
Exports
RefWorks
BibTeX
Ref. manager
Endnote
DataCite
NLM
DC