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arxiv: 1806.03685 · v1 · submitted 2018-06-10 · 🌌 astro-ph.IM · astro-ph.HE

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CAMELOT - Concept study and early results for onboard data processing and GPS-based timestamping

Andr\'as P\'al (1 , 2) , L\'aszl\'o M\'esz\'aros (1 , Norbert Tarcai (3) , Norbert Werner (4 , 5 , 6) , Jakub \v{R}\'ipa (4
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7) Masanori Ohno (6) Kento Torigoe (6) Koji Tanaka (6) Nagomi Uchida (6) G\'abor Galg\'oczi (8) Yasushi Fukazawa (6) Tsunefumi Mizuno (6) Hiromitsu Takahashi (6) Kazuhiro Nakazawa (9) Zsolt V\'arhegyi (3) Teruaki Enoto (10) Hirokazu Odaka (11) Yuto Ichinohe (12) Zsolt Frei (8 13) L\'aszl\'o Kiss (1) ((1) Konkoly Observatory MTA Research Centre for Astronomy Earth Sciences H-1121 Budapest Konkoly Thege Mikl\'os \'ut 15-17 Hungary (2) Department of Astronomy E\"otv\"os Lor\'and University P\'azm\'any P. st. 1/A Budapest (3) C3S Electronics Development LLC. K\"onyves K\'alm\'an krt. 12-14. 1097 (4) MTA-E\"ot\"vos University Lend\"ulet Hot Universe Research Group P\'azm\'any P\'eter s\'et\'any 1/A 1117 (5) Department of Theoretical Physics Astrophysics Faculty of Science Masaryk University Kotl\'a\v{r}sk\'a 2 Brno 611 37 Czech Republic (6) School of Science Hiroshima University 1-3-1 Kagamiyama Higashi-Hiroshima Japan (7) Charles University Faculty of Mathematics Physics Astronomical Institute V Hole\v{s}ovi\v{c}k\'ach 2 180 00 Prague 8 (8) Institute of Physics E\"otv\"os University (9) Department of Physics Nagoya University Furo-cho Chikusa-ku Nagoya Aichi (10) The Hakubi Center for Advanced Research Department of Astronomy Kyoto University Kyoto 606-8302 (11) Department of Physics University of Tokyo 7-3-1 Hongo Bunkyo Tokyo 113-0033 (12) Department of Physics Rikkyo University Nishi Ikebukuro 3-34-1 Toshimaku Tokyo 171-8501 (13) MTA-ELTE Astrophysics Research Group Hungary)
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classification 🌌 astro-ph.IM astro-ph.HE
keywords camelotaccuracyearlyresultselectronicsgamma-raylocalizationpayload
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Due to recent advances in nanosatellite technology, it is now feasible to integrate scintillators with an effective area of hundreds of square-centimeters on a single three-unit cubesat. We present the early test results for the digital payload electronics developed for the proposed CAMELOT (Cubesats Applied for MEasuring and LOcalising Transients) mission. CAMELOT is a fleet of nanosatellites intended to do full-sky monitoring and perform accurate timing-based localization of gamma-ray transients. Here we present the early results on the GPS timestamping capabilities of the CAMELOT payload electronics, concluding that the investigated setup is capable to timestamp the received gamma-ray photons with an accuracy and precision better than 0.02 millisecond, which corresponds to a timing based localization accuracy of $\sim 3.5^{\prime}$. Further refinements will likely allow us to improve the timing accuracy down to the sub-microsecond level.

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