Spatiotemporally-localized-stationary typical wave function satisfying Klein-Gordon equation with emergent mass

Details Spatiotemporally-localized-stationary typical wave function satisfying Klein-Gordon equation with emergent mass Spatiotemporally-localized-stationary typical wave function satisfying Klein-Gordon equation with emergent mass

2005-12-26

arxiv.org/abs/quant-ph/0512235v3

Physics

Quantum Physics

10 pages, content changed

Scientific paper

Starting from relativistic mass-less Madelung fluid, we shall develop a class of typical wave functions by imposing it to maximize Shannon entropy given its finite average quantum potential. We show that there is a class of solutions in which the wave function is spatiotemporally localized with finite spacetime support, uniformly moving hence stationary. It turns out that the quantum amplitude satisfies Klein-Gordon equation with emergent mass term proportional to the square root of average quantum potential. We show that there is physical time uncertainty which decreases as the mass increases. We also rederive the classical energy-momentum relation provided the de Broglie-Einstein relation holds. In this case, the time uncertainty is proportional to the inverse of classical energy.

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