English

Self-interacting mass-dimension one fields for any spin

High Energy Physics - Theory 2015-04-10 v6 Mathematical Physics math.MP

Abstract

According to Ahluwalia and Grumiller, massive spin-half fields of mass-dimension one can be constructed using the eigenspinors of the charge-conjugation operator (Elko) as expansion coefficients. In this paper, we generalize their result by constructing quantum fields from higher-spin Elko. The kinematics of these fields are thoroughly investigated. Starting with the field operators, their propagators and Hamiltonians are derived. These fields satisfy the higher-spin generalization of the Klein-Gordon but not the Dirac equation. Independent of the spin, they are all of mass-dimension one and are thus endowed with renormalizable self-interactions. These fields violate Lorentz symmetry. The violation can be characterized by a non Lorentz-covariant term that appears in the Elko spin-sums. This term provides a decomposition of the generalized higher-spin Dirac operator in the momentum space thus suggesting a possible connection between the mass-dimension one fields and the Lorentz-invariant fields.

Keywords

Cite

@article{arxiv.1210.7916,
  title  = {Self-interacting mass-dimension one fields for any spin},
  author = {Cheng-Yang Lee},
  journal= {arXiv preprint arXiv:1210.7916},
  year   = {2015}
}

Comments

25 pages, no figures. Typos corrected. Accepted for publication at IJMPA

R2 v1 2026-06-21T22:29:51.370Z