G. N. Ord scite author profile

Entwined space-time paths are bound pairs of trajectories which are traversed in opposite directions with respect to macroscopic time. In this paper we show that ensembles of entwined paths on a discrete space-time lattice are simply described by coupled difference equations which are discrete versions of the Dirac equation. There is no analytic continuation, explicit or forced, involved in this description. The entwined paths are 'self-quantizing'. We also show that simple classical stochastic processes that generate the difference equations as ensemble averages are stable numerically and converge at a rate governed by the details of the stochastic process. This result establishes the Dirac equation in one dimension as a phenomenological equation describing an underlying classical stochastic process in the same sense that the Diffusion and Telegraph equations are phenomenological descriptions of stochastic processes.

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The Schrödinger and diffusion propagators coexisting on a lattice

Ord¹

1996

J. Phys. A: Math. Gen.

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Random walks, continuum limits, and Schrödinger’s equation

Ord

Deakin

1996

Phys. Rev. A

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G. N. Ord

Fractal space-time: a geometric analogue of relativistic quantum mechanics

Time reversal in stochastic processes and the Dirac equation

Entwined paths, difference equations, and the Dirac equation

The Schrödinger and diffusion propagators coexisting on a lattice

Random walks, continuum limits, and Schrödinger’s equation

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