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Center for Advanced Diffusion-Wave and Photoacoustic Technologies, Department of Mechanical and Indu, University of Toronto, Toronto, ON, M5S 3G8, Canada

Publications

  • Research Article   
    Thermal and particle diffusion waves describe the relative mass of free standard model particles
    Author(s): Andreas Mandelis and James Howard Osterfield Slater*

    Thermal Diffusion Wave (Thermon) and Particle Diffusion Wave (PDW) dynamics are derived from an ensemble of Pre-Particles (PP) acting as heat engines. Once a steady state, non-linear logistic equilibrium of Thermon and PDW is established, the particles are stabilised and SM particles form by interacting with harmonic distributions of Thermon and PDW dynamics. The experimental observations confirm that this mechanism generates SM particle masses, and presumably conform with Quantum Field Theory (QFT). Expectations relationship between Thermon-PDW dynamics and QFT is not known. The new Thermon-PDW hypothesis has a key feature, the continuous flux of thermal energy to drive the Thermon and PDW. Concomitantly, sub-models describes the appearance of dynamics resembling gravitational and universe time properties... Read More»
    DOI: 10.37532/2752-8081.23.7(2).53-63

 
Google Scholar citation report
Citations : 83

Journal of Pure and Applied Mathematics received 83 citations as per Google Scholar report

Journal of Pure and Applied Mathematics peer review process verified at publons
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