TITLE:
A Process Model of Quantum Mechanics
AUTHORS:
William H. Sulis
KEYWORDS:
Process Theory, Quantum Foundations, Discrete Models, Emergent Models
JOURNAL NAME:
Journal of Modern Physics,
Vol.5 No.16,
October
30,
2014
ABSTRACT: A process
model of quantum mechanics utilizes a combinatorial game to generate a discrete
and finite causal space, which can be defined as a self-consistent quantum
mechanics. An emergent space-time
and continuous wave function arise through a
non-uniform interpolation process. Standard non-relativistic quantum mechanics
emerges under the limit of infinite information (the causal space grows to
infinity) and infinitesimal scale (the separation between points goes to zero).
This model has the potential to address several paradoxes in quantum mechanics
while remaining computationally powerful.