Sorli, Amrit and Fiscaletti, Davide Symmetry of mass and energy density of quantum vacuum. [Preprint] (Unpublished)
This is the latest version of this item.
Mass is an energy form of quantum vacuum in symmetry with diminished energy density of quantum vacuum. Presence of mass diminishes energy density of quantum vacuum respectively to the energy of a given mass. A given particle with a mass diminishes energy density of quantum vacuum, mass-less particle does not diminish energy of quantum vacuum. In order to explain mass of elementary particles this view does not require existence of the hypothetical boson of Higgs.
|Subjects:||Q Science > QC Physics > QC01 Quantum mechanics|
|Deposited By:||Bsc Amrit Sorli|
|Deposited On:||16 Dec 2011 10:32|
|Last Modified:||16 Dec 2011 10:42|
Available Versions of this Item
- Symmetry of mass and energy density of quantum vacuum. (deposited 16 Dec 2011 10:32) [Currently Displayed]
Repository Staff Only: item control page