Complex Matter Space and Relativistic Quantum Mechanics


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.

Conflicts of Interest

The authors declare no conflicts of interest.


[1] Naber George, L. (1992) The Geometry of Minkowski Spacetime. An Introduction to the Mathematics of Special Theory of Relativity. Dover.
[2] David, H. and Rensick (with the Assistance of Farrell Edwards and John Merrill) (1970) Fundamentals of Physics. John Wiley & Sons, Inc., Hoboken.
[3] Dirac, P.A.M. (1928) The Quantum Theory of Electron. Proceedings of the Royal Society A, 117, 610-624.
[4] Sudarshan, E.C.G. (1970) Physics of Complex Mass Particles. University of Texas, Austin.
[5] Gerald, K. (2003) Quantum Physics, Relativity, and Complex Space Time: Toward a New Synthesis. (Originally published in 1990 by North-Holland, Amsterdam)
[6] Richard, F. (1963) The Feynman Lectures on Physics. Vol. III, Addison Wesley, Reading, 1-6.
[7] Mehran, R. (2010) Imaginary Relativity. Wseas Transaction on Communications, 9.
[8] Mayer Alexander, F. (2007) Wave Energy in Quantum Mechanics. Journal of Physics, Conference Series, 70, Article ID: 012013.
[9] Wall Ernst, L. (1995) The Vortex Theory of the Electron and its de Broglie Waves Pulse. Institute for Basic Research, Palm Harbor.
[10] John, W. and Wojceich, Z. (1983) The Quantum Postulate and the Recent Development of Atomic Theory. In: Quantum Theory and Measurement, Princeton University Press, Princeton, 111.
[11] Reza, A. (2014) Quantum Complex Matter Space. International Journal of Theoretical and Mathematical Physics, 4, 159-163.
[12] Zhang, T.X. (2008) Electric Charge as a form of Imaginary Energy. Progress in Physics, 2.
[13] Sudarshan, E.C.G. (1968) A New Formulation of Relativistic Quantum Theory of Fields with Applications to Particles Traveling Faster Than Light. Proceedings of Nobel Symposium on Elementary Particle Theory.
[14] Taylor, T.J.R., Zafirots, C.D. and Dubson, M.A. (2004) Modern Physics for Scientists and Engineers. 2nd Edition, Pearson-Printice Hall.

Copyright © 2023 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.