Speaker
Description
The neutrino-nucleus coherent scattering (CEνNS), known as CEνNS, has the largest cross-section among all interaction channels for MeV neutrinos, making it the most promising way to remotely monitor nuclear reactors. A precise determination of the CEvNS cross section has a significant impact on understanding the properties of neutrinos and constraining new physics beyond the standard model. Liquid xenon time projection chamber (LXeTPC) is one of the most promising technologies for CEvNS search, thanks to its well-established low background and energy threshold. The RELICS (REactor neutrino LIquid xenon Coherent Scattering experiment) experiment aims at reactor CEνNS detection using an LXeTPC. In this talk, I will introduce the RELICS experiment with a focus on its status and discovery potential for CEvNS signals from reactor neutrinos.