Complex Matter Space and Relativistic Quantum Mechanics ()
ABSTRACT
The Special Relativity Theory cannot recognize speed faster than light. New assumption will be imposed that matter has two intrinsic components, 1) mass, and 2) charge, that is M = m + iq. The mass will be measured by real number system and charged by an imaginary unit. This article presents a Complex Matter Space in Relativistic Quantum Mechanics. We are hoping that this approach will help us to present a general view of energy and momentum in Complex Matter Space. The conclusion of this article on Complex Matter Space (CMS) theory will lead help to a better understanding toward the conversion of mass and energy equation, unifying the forces, and unifying relativity and quantum mechanics.
Share and Cite:
Ahangar, R. (2014) Complex Matter Space and Relativistic Quantum Mechanics.
Applied Mathematics,
5, 3401-3410. doi:
10.4236/am.2014.521317.