An extensive-air-shower-like event registered with the TUS orbital detector

TUS (Tracking Ultraviolet Set-up) is the world's first orbital detector of ultra-high-energy cosmic rays (UHECRs). It was launched into orbit on 28th April 2016 as a part of the scientific payload of the Lomonosov satellite. The main aim of the mission was to test the technique of measuring the ultraviolet fluorescence and Cherenkov radiation of extensive air showers (EASs) generated by primary cosmic rays with energies above ~100 EeV in the Earth atmosphere from space. During its operation period, TUS registered almost 80,000 events with a few of them satisfying conditions anticipated for EASs initiated by UHECRs. Here we discuss an event registered on 3rd October 2016. The event was measured in perfect observation conditions as an ultraviolet track in the nocturnal atmosphere of the Earth, with the kinematics and the light curve similar to those expected from an EAS. A reconstruction of the arrival direction and energy of a primary particle gave the zenith angle around $44^\circ$ and the energy of the primary particle ~1000 EeV. The extreme energy clearly is not compatible with the cosmic ray energy spectrum obtained with ground-based experiments. We discuss all conditions of registering the event, explain the reconstruction procedure and its limitations in details and comment on possible astrophysical and anthropogenic sources of the signal. We believe the measurement is important for the future missions KLYPVE-EUSO and POEMMA, aimed for studying UHECRs from space.