Your search keyword '"Nicolas De Angelis"' showing total 3 results

1. Proton Irradiation of SiPM arrays for POLAR-2

Author

Slawomir Mianowski, Nicolas De Angelis, Johannes Hulsman, Merlin Kole, Tomasz Kowalski, Sebastian Kusyk, Hancheng Li, Zuzanna Mianowska, Jerzy Mietelski, Agnieszka Pollo, Dominik Rybka, Jianchao Sun, Jan Swakon, Damian Wrobel, and Xin Wu

Subjects

Physics - Instrumentation and Detectors, Space and Planetary Science, FOS: Physical sciences, Astronomy and Astrophysics, Instrumentation and Detectors (physics.ins-det), Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM)

Abstract

POLAR-2 is a space-borne polarimeter, built to investigate the polarization of Gamma-Ray Bursts and help elucidate their mechanisms. The instrument is targeted for launch in 2024 or 2025 aboard the China Space Station and is being developed by a collaboration between institutes from Switzerland, Germany, Poland and China. The instrument will orbit at altitudes between 340km and 450km with an inclination of 42$^{\circ}$ and will be subjected to background radiation from cosmic rays and solar events. It is therefore pertinent to better understand the performance of sensitive devices under space-like conditions. In this paper we focus on the radiation damage of the silicon photomultiplier arrays S13361-6075NE-04 and S14161-6050HS-04 from Hamamatsu. The S13361 are irradiated with 58MeV protons at several doses up to 4.96Gy, whereas the newer series S14161 are irradiated at doses of 0.254Gy and 2.31Gy. Their respective performance degradation due to radiation damage are discussed. The equivalent exposure time in space for silicon photomultipliers inside POLAR-2 with a dose of 4.96Gy is 62.9 years (or 1.78 years when disregarding the shielding from the instrument). Primary characteristics of the I-V curves are an increase in the dark current and dark counts, mostly through cross-talk events. Annealing processes at $25^{\circ}C$ were observed but not studied in further detail. Biasing channels while being irradiated have not resulted in any significant impact. Activation analyses showed a dominant contribution of $\beta^{+}$ particles around 511keV. These resulted primarily from copper and carbon, mostly with decay times shorter than the orbital period., Comment: accepted for publication in Experimental Astronomy

Published

2022

2. Gamma-Ray Polarimetry of the Crab Pulsar Observed by POLAR

Author

Han-Cheng Li, Nicolas Produit, Shuang-Nan Zhang, Merlin Kole, Jian-Chao Sun, Ming-Yu Ge, Nicolas De Angelis, Johannes Hulsman, Zheng-Heng Li, Li-Ming Song, Teresa Tymieniecka, Bo-Bing Wu, Xin Wu, Yuan-Hao Wang, Shao-Lin Xiong, Yong-Jie Zhang, Yi Zhao, and Shi-Jie Zheng

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), Space and Planetary Science, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM)

Abstract

The X/$\gamma$ ray polarimetry of the Crab pulsar/nebula is believed to hold crucial information on their emission models. In the past, several missions have shown evidence of polarized emission from the Crab. The significance of these measurements remains however limited. New measurements are therefore required. POLAR is a wide Field of View Compton-scattering polarimeter (sensitive in 50-500 keV) onboard the Chinese spacelab Tiangong-2 which took data from September 2016 to April 2017. Although not designed to perform polarization measurements of pulsars, we present here a novel method which can be applied to POLAR as well as that of other wide Field of View polarimeters. The novel polarimetric joint-fitting method for the Crab pulsar observations with POLAR, allows us to obtain constraining measurements of the pulsar component. The best fitted values and corresponding 1$\sigma$ deviations for the averaged phase interval: (PD=$14\substack{+15 \\ -10}$\%, PA=$108\substack{+33 \\ -54} ^{\circ}$), for Peak 1: (PD=$17\substack{+18 \\ -12}$\%, PA=$174\substack{+39 \\ -36} ^{\circ}$) and for Peak 2: (PD=$16\substack{+16 \\ -11}$\%, PA=$78\substack{+39 \\ -30} ^{\circ}$). Further more, the 3$\sigma$ upper limits on the polarization degree are for the averaged phase interval (55\%), Peak 1 (66\%) and Peak 2 (57\%). Finally, to illustrate the capabilities of this method in the future, we simulated two years observation to the Crab pulsar with POLAR-2. The results show that POLAR-2 is able to confirm the emission to be polarized with $5\sigma$ and $4\sigma$ confidence level if the Crab pulsar is polarized at $20\%$ and $10\%$ respectively., Comment: 14 pages, 18 figures, 2 tables; accepted for publication in MNRAS

Published

2022

3. Calibration and operation of SiPM-based cameras for gamma-ray astronomy in presence of high night-sky light

Author

M. Więcek, Petr Schovanek, Stanislav Michal, Miroslav Palatka, Michał Ostrowski, Yannick Favre, J. Borkowski, Pawel Rajda, Dominik Neise, Jiri Blazek, Dorota Smakulska, Jakub Juryšek, Karol Seweryn, Matteo Balbo, Jacek Świerblewski, Teresa Montaruli, Petr Hamal, Isaac Troyano Pujadas, Cyril Martin Alispach, V. Sliusar, P. Paśko, D. della Volpe, Mira Grudzińska, Etienne Lyard, Imen Al Samarai, T. Bulik, Jerzy Kasperek, Andrzej Kotarba, J. Blocki, Miroslav Pech, Victor Coco, Henry Przybilski, Łukasz Stawarz, Ladislav Chytka, Matthieu Heller, Jacek Niemiec, K. Ziȩtara, Dorota Sobczyńska, Jerzy Michalowski, Paweł Świerk, Miroslav Hrabovsky, Rafał Moderski, Anastasia Maria Barbano, Katarzyna Koncewicz, V. Beshley, T.R.N. Ekoume, Frank Raphael Cadoux, Paweł Rozwadowski, Roland Walter, Adrian Biland, Dusan Mandat, Bartłomiej Pilszyk, Petr Travnicek, Nicolas De Angelis, Y. Renier, Tomasz Gieras, E. Mach, A. Zagdański, and Andrii Nagai

Subjects

Pixel, business.industry, Computer science, Emphasis (telecommunications), FOS: Physical sciences, Gamma-ray astronomy, law.invention, Telescope, Optics, Silicon photomultiplier, law, Calibration, business, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Cherenkov radiation, Camera resectioning

Abstract

The next generation of Cherenkov telescope cameras feature Silicon Photo Multipliers (SiPM), which can guarantee excellent performance and allow for observation also under moonlight, increasing duty-cycle and therefore the physics reach. A 4 m-diameter Davies-Cotton prototype telescope with a 9-degree optical FoV and a 1296-pixel SiPM camera, has been designed to meet the requirements of the next generation of ground-based gamma-ray observatories at the highest energies. The large-scale production of the telescopes for array deployment has required the development of a fully automated calibration strategy which relies on a dedicated hardware, the Camera Test Setup (CTS). For each camera pixel, the CTS is equipped with two LEDs, one operated in pulsed mode to reproduce signal and one in continuous mode to reproduce night-sky background. In this contribution we will present the camera calibration strategy, from the laboratory measurement to the on-site monitoring with emphasis on the results obtained with the first camera prototype. In addition, key performances such as charge resolution, time resolution and trigger efficiencies and their degradation with increasing night-sky background level will be presented., PoS: Proceedings of Science, 358, ISSN:1824-8039, Proceedings of 36th International Cosmic Ray Conference (ICRC 2019)