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Journal of Physics A: Mathematical and General Volume 33 Number 41 Create an alert RSS this journal

George Horton et al 2000 J. Phys. A: Math. Gen. 33 7337 doi:10.1088/0305-4470/33/41/306

Time-like flows of energy momentum and particle trajectories for the Klein-Gordon equation

George Horton1, Chris Dewdney1 and Alexei Nesteruk2

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Abstract References Cited By

The Klein-Gordon equation is interpreted in the de Broglie-Bohm manner as a single-particle relativistic quantum mechanical equation that defines unique time-like particle trajectories. The particle trajectories are determined by the conserved flow of the intrinsic energy density, which can be derived from the specification of the Klein-Gordon energy-momentum tensor in an Einstein-Riemann space. The approach is illustrated by application to the simple single-particle phenomena associated with square potentials.


PACS

03.65.Pm Relativistic wave equations

MSC

81Q05 Closed and approximate solutions to the Schrödinger, Dirac, Klein-Gordon and other quantum-mechanical equations

Subjects

Quantum information and quantum mechanics

Dates

Issue 41 (20 October 2000)

Received 26 June 2000



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