European Physical Journal C: Particles and Fields (Jan 2020)

NuRadioMC: simulating the radio emission of neutrinos from interaction to detector

  • C. Glaser,
  • D. García-Fernández,
  • A. Nelles,
  • J. Alvarez-Muñiz,
  • S. W. Barwick,
  • D. Z. Besson,
  • B. A. Clark,
  • A. Connolly,
  • C. Deaconu,
  • K. D. de Vries,
  • J. C. Hanson,
  • B. Hokanson-Fasig,
  • R. Lahmann,
  • U. Latif,
  • S. A. Kleinfelder,
  • C. Persichilli,
  • Y. Pan,
  • C. Pfendner,
  • I. Plaisier,
  • D. Seckel,
  • J. Torres,
  • S. Toscano,
  • N. van Eijndhoven,
  • A. Vieregg,
  • C. Welling,
  • T. Winchen,
  • S. A. Wissel

DOI
https://doi.org/10.1140/epjc/s10052-020-7612-8
Journal volume & issue
Vol. 80, no. 2
pp. 1 – 35

Abstract

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Abstract NuRadioMC is a Monte Carlo framework designed to simulate ultra-high energy neutrino detectors that rely on the radio detection method. This method exploits the radio emission generated in the electromagnetic component of a particle shower following a neutrino interaction. NuRadioMC simulates everything from the neutrino interaction in a medium, the subsequent Askaryan radio emission, the propagation of the radio signal to the detector and finally the detector response. NuRadioMC is designed as a modern, modular Python-based framework, combining flexibility in detector design with user-friendliness. It includes a state-of-the-art event generator, an improved modelling of the radio emission, a revisited approach to signal propagation and increased flexibility and precision in the detector simulation. This paper focuses on the implemented physics processes and their implications for detector design. A variety of models and parameterizations for the radio emission of neutrino-induced showers are compared and reviewed. Comprehensive examples are used to discuss the capabilities of the code and different aspects of instrumental design decisions.