English

Laser test with Mini-EUSO

Instrumentation and Methods for Astrophysics 2019-09-11 v1 High Energy Physics - Experiment

Abstract

Mini-EUSO (Extreme Universe Space Observatory) is a small-scale prototype cosmic-ray detector that will measure Earth`s UV emission and other atmospheric phenomena from space. It will be placed in the International Space Station (ISS) behind a UV-transparent window looking to the nadir. The launch is planned this year (2019). Consisting of a multi-anode photomultiplier (MAPMT) camera and a 2525 cm diameter Fresnel lens system, Mini-EUSO has a \ang{44} field of view (FoV), a 6.56.5 km2^2 spatial resolution on the ground and a 2.5 μ2.5\ \mus temporal resolution. In principle, Mini-EUSO will be sensitive to extensive air shower (EAS) from cosmic-rays with energies above 102110^{21} eV. A mobile, steerable UV laser system will be used to test the expected energy threshold and performance of Mini-EUSO. The laser system will be driven to remote locations in the Western US and aimed across the field of view of Mini-EUSO when the ISS passes overhead during dark nights. It will emit pulsed 355355 nm UV laser light to produce a short speed-of-light track in the detector. The brightness of this track will be similar to the track from an EAS resulting from a cosmic-ray of up to 102110^{21} eV. The laser energy is selectable with a maximum of around 9090 mJ per pulse. The energy calibration factor is stable within 5 %5\ \% . The characteristics of the laser system and Mini-EUSO have been implemented inside the JEM-EUSO OffLine software framework, and laser simulation studies are ongoing to determine the best way to perform a field measurement.

Keywords

Cite

@article{arxiv.1909.04279,
  title  = {Laser test with Mini-EUSO},
  author = {Viktoria Kungel and Mario E. Bertaina and Francesca Bisconti and Marco Casolino and Johannes Eser and Lawrence Wiencke and JEM-EUSO Collaboration},
  journal= {arXiv preprint arXiv:1909.04279},
  year   = {2019}
}

Comments

Presented at the 36th ICRC (Madison, WI; 2019)

R2 v1 2026-06-23T11:10:37.176Z