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Electrodynamically-correct signal simulations for radio particle detectors

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Eisvogel

Eisvogel is a tool to calculate the time-domain antenna signal in a radio neutrino experiment. It uses an electrodynamic Green's function to efficiently propagate radiation through complex environments.

Key features

  • All electrodynamic effects are included: no ray-tracing or geometric optics are assumed
  • Supports arbitrary linear, inhomogeneous, anisotropic materials
  • Interfaces to CORSIKA 8 to simulate signals from microscopic showers

Contact us

Eisvogel is still under development. If you want to help, or just learn more about the project, feel free to contact us.

Installation

mkdir build && cd build
cmake -DBUILD_TESTS=ON -DBUILD_EXAMPLES=ON ..
make -j5

To also build the components for the calculation of the Green's function do (this requires MEEP to be installed and available)

cmake -DBUILD_MEEP=ON ..

If you want to build the C++ unit tests, add

cmake -DBUILD_TESTS=ON ..

Support for Corsika 8

Eisvogel can interface with Corsika 8. To enable, build Eisvogel as follows

cmake -DBUILD_CORSIKA=ON -DCMAKE_INSTALL_PREFIX=/path/to/eisvogel-install ..
make -j5
make install

More information

  • P. Windischhofer, C. Welling, C. Deaconu, "Fully-electrodynamic radio simulations with Eisvogel", PoS(ARENA2024), 051
  • P. Windischhofer, C. Welling, C. Deaconu, "Eisvogel: Exact and efficient calculations of radio emissions from in-ice neutrino showers", PoS(ICRC2023), 1157
  • P. Windischhofer, W. Riegler, "Electrical signals induced in detectors by cosmic rays: a reciprocal look at electrodynamics", PoS(ICRC2021), 184
  • W. Riegler, P. Windischhofer, "Signals induced on electrodes by moving charges, a general theorem for Maxwell’s equations based on Lorentz-reciprocity", Nucl. Instrum. Meth. A, 980, 164471 (2020)

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Electrodynamically-correct signal simulations for radio particle detectors

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