Journal of Physical Chemistry & Biophysics
Open Access
ISSN: 2161-0398
+44 1478 350008
ISSN: 2161-0398
+44 1478 350008
J A J van Leunen
Netherlands
Posters & Accepted Abstracts: J Phys Chem Biophys
The Higgs mechanism claims to offer mass to some of the elementary particles that according to the standard model do not yet own an amount of mass. This paper introduces a category of super-tiny objects that represent dark quanta and are shock fronts that are triggered by point-like actuators. These shock fronts are solutions of homogeneous second order partial differential euations, which describe part of the dynamic behavior of continuums that embed the point-like actuators. During travel the shock fronts keep the shape of the crossection of the fronts. During travel, the tiny one-dimensional shock fronts keep their amplitude. These objects carry a standard amount of energy. During travel the spherical shock fronts diminish their amplitude such that they integrate in the Green�??s function of the carrier. Therefore, temporary, the carrier deforms locally and globally the carrier expands permanently. This deformation represents a standard amount of mass. Elementary particles hop around in a stochastic hopping path that results in a coherent and dense hop landing location swarm. A private stochastic process recurrently regenerates the swarm and thus causes a significant and persistant deformation and a corresponding amount of mass. The location density distribution of this swarm equals the squared modulus of the wave function of the particle. This mechanism offers mass to all elementary particles. It is a comprehensible alternative to the Higgs mechanism. The super-tiny shock fronts represent a new category of objects that together constitute all other discrete objects that exist in the universe.
E-mail: hans.van.leunen@planet.nl