English

Quantum reality with negative-mass particles

Quantum Physics 2022-01-25 v1

Abstract

Physical interpretations of the time-symmetric formulation of quantum mechanics, due to Aharonov, Bergmann, and Lebowitz are discussed in terms of weak values. The most direct, yet somewhat naive, interpretation uses the time-symmetric formulation to assign eigenvalues to unmeasured observables of a system, which results in logical paradoxes, and no clear physical picture. A top-down ontological model is introduced that treats the weak values of observables as physically real during the time between pre- and post-selection (PPS), which avoids these paradoxes. The generally delocalized rank-1 projectors of a quantum system describe its fundamental ontological elements, and the highest-rank projectors corresponding to individual localized objects describe an emergent particle model, with unusual particles whose masses and energies may be negative or imaginary. This retrocausal top-down model leads to an intuitive particle-based ontological picture, wherein weak measurements directly probe the properties of these exotic particles, which exist whether or not they are actually measured

Keywords

Cite

@article{arxiv.2201.09510,
  title  = {Quantum reality with negative-mass particles},
  author = {Mordecai Waegell and Eliahu Cohen and Avshalom Elitzur and Jeff Tollaksen and Yakir Aharonov},
  journal= {arXiv preprint arXiv:2201.09510},
  year   = {2022}
}

Comments

15 pages, 5 figures (Supporting Information: 16 pages, 3 figures)

R2 v1 2026-06-24T08:59:43.038Z