TL;DR
This paper proposes a theoretical model involving a hidden sector with sterile fermions and bosons, requiring additional scalar fields for electroweak invariance, which could have implications for understanding dark matter or new physics.
Contribution
It introduces a new coupling scheme for a hypothesized hidden sector involving sterile particles and scalar fields, expanding the framework of beyond Standard Model physics.
Findings
The hidden sector includes sterile fermions and bosons with specific mass dimensions.
Additional scalar isovector and isoscalar fields are necessary for electroweak invariance.
The model provides a basis for further exploration of hidden sectors in particle physics.
Abstract
A hypothetic Hidden Sector of the Universe, consisting of sterile fermions ("sterinos") and sterile mediating bosons ("sterons") of mass dimension 1 (not 2!) - the last described by an antisymmetric tensor field - requires to exist also a scalar isovector and scalar isoscalar in order to be able to construct electroweak invariant coupling (before spontaneously breaking its symmetry).
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