Search for Invisibly Decaying Light Scalars at the FCC-ee

Abstract

We investigate the production of invisibly decaying light scalars in association with hadronically decaying Z bosons at the Future Circular Collider-ee at a centre-of-mass energy s=240 GeV. Several new physics models predict the existence of these low-mass scalar states, while the existing experimental constraints do not yet exclude these states. We study the low-mass scalar based on a simplified extension of the Standard Model, introducing an additional scalar singlet and a scalar dark matter candidate. The analysis is performed for a set of new scalars with mass in the range (15, 120) GeV, by employing a selection-based strategy complemented with Multivariate Analysis techniques to discriminate the signal from background. The expected upper limits on the production cross-section times the branching fraction of the new scalars decaying invisibly are evaluated as a function of the scalar mass. We find that sensitivities of 10-2--10-1~fb are achievable for scalar masses below the Z boson mass, while sensitivities of 0.1--1~fb are obtained in the mass range 80--120 . Depending on the mixing angle, novel scalars with masses up to 80 are within discovery reach.