EPS-HEP 2017

The ν-cleus experiment: Gram-scale cryogenic calorimeters for a rapid discovery of coherent neutrino scattering

Not scheduled

15m

Salone Adriatico (Palazzo del Casinò)

Board: NP-12

Poster Presentation Neutrino Physics Poster session

Speakers

Raimund Strauss Jochen Schieck (Austrian Academy of Sciences (AT))

Description

We investigate new gram-scale cryogenic detectors, 1-2 orders of magnitude smaller in size than previous devices. These are expected to reach unprecedentedly low energy thresholds, in the 10 eV-regime and below. This technology allows new approaches in rare-event searches, including the search for MeV-scale dark matter, detection of solar neutrinos and a rapid discovery of coherent neutrino-nucleus scattering (CNNS) at a nuclear reactor. We show a simple scaling law for the energy threshold of cryogenic calorimeters, allowing to extrapolate the performance of existing devices to smaller sizes. Results from a measurement with a 0.5 g sapphire detector are presented. This prototype reached a threshold of 20 eV, one order of magnitude lower than previous results with massive calorimeters. We discuss an experiment, called $\nu$-cleus, which enables a 5-$\sigma$ discovery of CNNS within about 2 weeks of measuring time at 40 m distance from a power reactor. In a second stage, this experiment enables precision measurements of the CNNS cross-section and spectral shape for new physics beyond the Standard Model.