Search for solar axions produced through the axion-electron coupling gae using a new GridPix detector at CAST

Abstract

We present a search for solar axions produced through the axion-electron coupling (gae) using data from a novel 7-GridPix detector installed at the CERN Axion Solar Telescope (CAST). The detector, featuring ultra-thin silicon nitride windows and multiple veto systems, collected approximately 160 hours of solar tracking data between 2017-2018. Using machine learning techniques and the veto systems, we achieved a background rate of 1.06× 10-5\,keV-1cm-2s-1 at a signal efficiency of about 80\,\% in the 0.2-8\,keV range. Analysis of the data yielded no significant excess above background, allowing us to set a new upper limit on the product of the axion-electron and axion-photon couplings of gae· gaγ < 7.35× 10-23\,GeV-1 at 95\,\% confidence level. This result improves upon the previous best helioscope limit and demonstrates the potential of GridPix technology for rare event searches. Additionally, we derived a limit on the axion-photon coupling of gaγ < 9.0× 10-11\,GeV-1 at 95\,\% CL, which, while not surpassing CAST's best limit, provides complementary constraints on axion models.