Invisible Quarkonium Decays as a Sensitive Probe of Dark Matter

Abstract

We examine in a model-independent manner the measurements that can be performed at B-factories with sensitivity to dark matter. If a singlet scalar, pseudo-scalar, or vector is present and mediates the Standard Model - dark matter interaction, it can mediate invisible decays of quarkonium states such as the , J/, and η. Such scenarios have arisen in the context of supersymmetry, extended Higgs sectors, solutions the supersymmetric μ problem, and extra U(1) gauge groups from grand unified theories and string theory. Existing B-factories running at the (4S) can produce lower resonances by emitting an Initial State Radiation (ISR) photon. Using a combination of ISR and radiative decays, the initial state of an invisibly decaying quarkonium resonance can be tagged, giving sensitivity to the spin and CP-nature of the particle that mediates standard model-dark matter interactions. These measurements can discover or place strong constraints on dark matter scenarios where the dark matter is approximately lighter than the b-quark. For the decay chains (nS) π+ π- (1S) (n=2,3) we analyze the dominant backgrounds and determine that with 400 fb-1 collected at the (4S), the B-factories can limit BR((1S) invisible) 0.1%.

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