English

Everett's Missing Postulate and the Born Rule

Quantum Physics 2020-05-20 v3

Abstract

Everett's Relative State Interpretation has gained increasing interest due to the progress of understanding the role of decoherence. In order to fulfill its promise as a realistic description of the physical world, two postulates are formulated. In short they are 1) for a system with continuous coordinates x\vec{x}, discrete variable jj, and state ψj(x)\psi_j(\vec{x}), the density ρj(x)=ψj(x)2\rho_j(\vec{x})=|\psi_j(\vec{x})|^2 gives the distribution of the location of the system with the respect to the variables x\vec{x} and jj; 2) an equation of motion for the state itψ=Hψi\hbar \partial_t \psi = H\psi. The first postulate connects the mathematical description to the physical reality, which has been missing in previous versions. The contents of the standard (Copenhagen) postulates are derived, including the appearance of Hilbert space and the Born rule. The approach to probabilities earlier proposed by Greaves replaces the classical probability concept in the Born rule. The new quantum probability concept, earlier advocated by Deutsch and Wallace, is void of the requirement of uncertainty.

Keywords

Cite

@article{arxiv.1902.05521,
  title  = {Everett's Missing Postulate and the Born Rule},
  author = {Per Arve},
  journal= {arXiv preprint arXiv:1902.05521},
  year   = {2020}
}
R2 v1 2026-06-23T07:41:20.835Z