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Scalar Dark Matter in light of LEP and ILC Experiments

arXiv:1503.06475 · doi:10.1103/PhysRevD.92.115022

Abstract

In this work we study a scalar field dark matter model with mass of the order of 100 MeV. We assume dark matter is produced in the process $e^-+e^+\to ϕ+ϕ^*+γ$, that, in fact, could be a background for the standard process $e^-+e^+\to ν+\barν+γ$ extensively studied at LEP. We constrain the chiral couplings, $C_L$ and $C_R$, of the dark matter with electrons through an intermediate fermion of mass $m_F=100$ GeV and obtain $C_L=0.1(0.25)$ and $C_R=0.25(0.1)$ for the best fit point of our $χ^2$ analysis. We also analyze the potential of ILC to detect this scalar dark matter for two configurations: (i) center of mass energy $\sqrt{s}=500$ GeV and luminosity $\mathcal{L}=250$ fb$^{-1}$, and (ii) center of mass energy $\sqrt{s}=1$ TeV and luminosity $\mathcal{L}=500$ fb$^{-1}$. The differences of polarized beams are also explored to better study the chiral couplings.

15 pages, 6 figures and 1 table. New references added and improvements in the text. Conclusions unchanged