English

Excluding Local Hidden Variables in $\Lambda\bar{\Lambda}$ Production: The Incompatibility with Angular-Momentum Conservation and CPT Invariance

High Energy Physics - Phenomenology 2026-01-23 v1

Abstract

We analyze spin entanglement in ΛΛˉ\Lambda\bar{\Lambda} pairs produced in the decays of scalar (hh) and pseudoscalar (aa) particles, contrasting predictions from quantum field theory (QFT) with those of local hidden-variable theories (LHVTs). Using the self-analyzing weak decays Λpπ\Lambda \to p\pi^- and Λˉpˉπ+\bar{\Lambda} \to \bar{p}\pi^+, we derive the joint angular distributions within QFT. Our key findings are: For scalar production hΛΛˉh \to \Lambda\bar{\Lambda}, no LHVT respecting locality and angular-momentum conservation can reproduce the QFT distribution. For pseudoscalar production aΛΛˉa \to \Lambda\bar{\Lambda}, a CPT-symmetric LHVT is excluded by positivity constraints given the measured analyzing powers; however, if CPT symmetry is relaxed, an explicit LHVT construction, with uniform hidden-variable measure and response functions satisfying b1c1=3αΛαΛˉb_1 c_1 = 3\alpha_{\Lambda}\alpha_{\bar{\Lambda}}, can match the QFT result. These distinct signatures provide clear, experimentally testable criteria to discriminate between QFT and LHVT in ΛΛˉ\Lambda\bar{\Lambda} systems across different production mechanisms.

Cite

@article{arxiv.2601.15747,
  title  = {Excluding Local Hidden Variables in $\Lambda\bar{\Lambda}$ Production: The Incompatibility with Angular-Momentum Conservation and CPT Invariance},
  author = {Junle Pei and Lina Wu and Tianjun Li and Xiqing Hao},
  journal= {arXiv preprint arXiv:2601.15747},
  year   = {2026}
}

Comments

13 pages

R2 v1 2026-07-01T09:15:25.587Z