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Development of an in-situ calibration device of firn properties for Askaryan neutrino detectors
- Beise, J;
- Glaser, C;
- Anker, A;
- Baldi, P;
- Barwick, SW;
- Bernhoff, H;
- Besson, DZ;
- Bingefors, N;
- Cataldo, M;
- Chen, P;
- Fernández, DG;
- Gaswint, G;
- Hallgren, A;
- Hallmann, S;
- Hanson, JC;
- Klein, SR;
- Kleinfelder, SA;
- Lahmann, R;
- Liu, J;
- Magnuson, M;
- McAleer, S;
- Meyers, Z;
- Nam, J;
- Nelles, A;
- Novikov, A;
- Paul, MP;
- Persichilli, C;
- Plaisier, I;
- Pyras, L;
- Rice-Smith, R;
- Tatar, J;
- Wang, SH;
- Welling, C;
- Zhao, L
- et al.
Abstract
High energy neutrinos (E >1017 eV) are detected cost-efficiently via the Askaryan effect in ice, where a particle cascade induced by the neutrino interaction produces coherent radio emission that can be picked up by antennas installed below the surface. A good knowledge of the near surface ice (aka firn) properties is required to reconstruct the neutrino properties. In particular, a continuous monitoring of the snow accumulation (which changes the depth of the antennas) and the index-of-refraction profile are crucial for an accurate determination of the neutrino’s direction and energy. We present an in-situ calibration system that extends the radio detector station with a radio emitter to continuously monitor the firn properties by measuring time differences of direct and reflected (off the surface) signals (D’n’R). We optimized the station layout in a simulation study and quantified the achievable precision. We present 14 months of data of the ARIANNA detector on the Ross Ice Shelf, Antarctica, where a prototype of this calibration system was successfully used to monitor the snow accumulation with unprecedented precision of 1 mm. We explore and test several algorithms to extract the D’n’R time difference from noisy data (including deep learning). This constitutes an in-situ test of the neutrino vertex distance reconstruction using the D’n’R technique which is needed to determine the neutrino energy.
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