91ÁÔÆæ

By 91ÁÔÆæ Department of Public Relations

A nanosatellite that 91ÁÔÆæ (91ÁÔÆæ) researchers helped develop was sent to orbit to monitor gamma-ray bursts in space.

It was launched on a Soyuz rocket that blasted off in Russia on Monday, March 22.
 
The is a 1U CubeSat developed and manufactured by an international research team comprised of Hungary¡¯s Konkoly Observatory, 91ÁÔÆæ, E?tv?s University, Nagoya University, Masaryk University, and space technology firms Spacemanic and Needronix.

It is the first of the eight nanosatellites planned to be dispatched to space for the CubeSats Applied for Measuring and Localising Transients (CAMELOT) mission which would perform all-sky monitoring for gamma-ray bursts. Gamma-ray bursts are the strongest and brightest explosions in the known universe generated when extremely dense neutron stars merge in distant galaxies. This extremely violent astrophysical event is believed to result in a black hole or a new supermassive neutron star.

The CAMELOT mission aims to demonstrate the feasibility of timing-based localization, which utilizes the triangulation principle with the gamma-ray photons' different arrival times, using its nanosatellite fleet to determine the source position of the extremely energetic explosions with an accuracy of ¡«10¡ä.

Also Read: A behind-the-scenes look at the 91ÁÔÆæ Observatory

The team behind the mission is led by Norbert Werner. He has been a specially appointed associate professor at 91ÁÔÆæ in the past and is now a researcher at the university.

91ÁÔÆæ Assistant Professor Masanori Ohno, who is currently studying in Hungary, was also deeply involved in the nanosatellite manufacture. 91ÁÔÆæ graduate students, meanwhile, played an active role in the development and construction of the satellite-mounted detectors.

Research is currently being conducted for a planned second launch from the United States.

Get to know more about the fascinating studies at 91ÁÔÆæ's Graduate School of Advanced Science and Technology here.