%0 Journal Article
%T Einstein¡¯s Gravitational Field Approach to Dark Matter and Dark Energy¡ªGeometric Particle Decay into the Vacuum Energy Generating Higgs Boson and Heavy Quark Mass
%A Walter James Christensen
%J Journal of Modern Physics
%P 1421-1439
%@ 2153-120X
%D 2015
%I Scientific Research Publishing
%R 10.4236/jmp.2015.610147
%X During an interview at the Niels Bohr Institute David Bohm stated, ¡°according to Einstein, particles should eventually emerge ¡­ as singularities, or very strong regions of stable pulses of (the gravitational) field¡± [1]. Starting from this premise, we show spacetime, indeed, manifests stable pulses (<em>n-valued gravitons</em>) that decay into the vacuum energy to generate all three boson masses (<em>including Higgs</em>), as well as heavy-quark mass; and all in precise agreement with the 2010 CODATA report on fundamental constants. Furthermore, our relativized quantum physics approach (RQP) answers to the mystery surrounding dark energy, dark matter, accelerated spacetime, and why ordinary matter dominates over antimatter.
%K Dark Energy
%K Dark Matter
%K Einstein
%K Higgs Particle
%K Geometric Particles
%K Fundamental Quanta
%K General Relativity
%K Bosons
%K Quarks
%K Mass Hierarchy Problem
%K Accelerated Spacetime
%K Standard Model of Particle Physics
%K Relativized Quantum Physics
%K RQP
%K Bohm
%K Consistency Condition
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=59229