Toward a Complete Wave-Particle Duality: Do Matter Waves Have Inertia?

A. I. Arbab, H. M. Widatallah, H. Khalafalla

Abstract


A quaternionic mass defining longitudinal mass () and transverse mass () of a particle is introduced. The longitudinal and transverse masses represent the mass of the particle and matter wave accompanying it, respectively. A massive particle is found to have a bigger longitudinal mass than transverse mass. The particle nature due to the transverse mass of a particle is described by a scalar wave satisfying the Klein-Gordon equation. The transverse mass vector is found to be along the direction of the particle’s velocity (). A particle of an equal longitudinal and transverse mass travels at speed of light in vacuum. The transmission of matter wave energy is found to be opposite to the particle velocity. The momentum of the particle () and its matter wave () are equal. The direction of the transverse mass is found to be along the direction of the particle’s velocity.

References


Sciama, D. (1953). On the Origin of Inertia. Mon. Not. Roy. Astron. Soc., (113), 34.

De Broglie, L. (1924). Sur la définition générale de la correspondence entre onde et mouvement. C. R. Acad. Sc., (179), 39.

Arbab, A.I. (2011). The Analogy Between Matter and Electromagnetic Waves. EPL, (94), 50005.

Arbab, A.I. (2011). The Quaternionic Quantum Mechanics. Applied Physics Research, (3), 60.

Bass, L., & Schödinger, E. (1955). Must the Photon Mass Be Zero?. Proc. Roy. Soc. London, A(232), 1.

Arbab, A.I. (2010). Derivation of Dirac, Klein-Gordon, Schödinger, Diffusion and Quantum Heat Transport Equations from a Universal Quantum Wave Equation. EPL, (92), 40001.

Gupta, R.C. (2003). Concept of Quaternion - Mass for Wave-Particle Duality: A Novel Approach. Retrieved from http://arxiv.org/abs/physics/0305024

Arbab, A.I. & Yassein, F.A. (2012). A New Formulation of Quantum Mechanics, Journal of Modern Physics, (3), 163.

Arbab, A.I. & Yassein, F.A. (2010). A New Formulation of Quantum Mechanics, Journal of Electromagnetic Analysis and Applications, (2), 457.

Griffiths, D.J. (1999). Introduction to Electrodynamics. Prentice-Hall.

Arbab, A.I. (2012). Transport Properties of Universal Quantum Equation. Chinese Phys. Lett., (29), 030304.

Arbab, A.I. (2012). The Emergent Longitudinal Wave from Space and Time Derivatives Transformations. Retrieved from http://arxiv.org/abs/1202.5744




DOI: http://dx.doi.org/10.3968/j.ans.1715787020120503.2450

DOI (PDF): http://dx.doi.org/10.3968/g3035

DOI (indexed/included/archived): http://dx.doi.org/10.3968/g4613

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