References
- 1. Brazier, K.T.S., Carraminana, A., Chadwick, P.M., Dipper, N.A., Lincoln, E.W., McComb, T.J.L., … & Turver, K.E. (1990). SN1987a – Updated Limit to 400 GeV Gamma Ray Emission Using the Narrabri VHE Gamma Ray Telescope – May 1989. Nucl. Phys. B. Proc. Suppl., 14 (1), 188−190.10.1016/0920-5632(90)90418-T
- 2. Ahnen, M.L., Ansoldi, S., Antonelli, A., Antoranz, P., Babić, A. Banerjee, B., … & Zottmann, N. (2015). Very High Energy γ-Rays from the Universe’s Middle Age: Detection of the z = 0.940 Blazar PKS 1441+25 with MAGIC. The Astrophysical Journal Letters, 815 (2), L23−L31.
- 3. Aharonian, F., Akhperjanian, A., Beilicke, M., Bernlöhr, K., Börst, H.-G., Bojahr, H., … & Wittek, W. (2004). The Crab Nebula and Pulsar between 500 GeV and 80 TeV: Observations with the HEGRA Stereoscopic Air Cerenkov Telescopes. The Astrophysical Journal, 614 (2), 897−913.10.1086/423931
- 4. Kuzmichev, L.A., Astapov, I.I., Bezyazeekov, P.A., Boreyko, V., Borodin, A.N., Budnev, B.M., … & Yashin, I.I. (2018). TAIGA Gamma Observatory: Status and Prospects. Physics of Atomic Nuclei, 81 (4), 497−507.10.1134/S1063778818040105
- 5. Amenomori, M., Bao, Y.W., Bi, X.J., Chen, D., Chen, T.L., Chen, W.Y., … & Zhou, X.X. (2019). First Detection of Photons with Energy Beyond 100 TeV from an Astrophysical Source. eprint arXiv:1906.05521.10.1103/PhysRevLett.123.051101
- 6. Mishev, A., Mavrodiev, S., & Stamenov J. (2005). Gamma Rays Studies Based on Atmospheric Cherenkov Technique at High Mountain Altitude. International Journal of Modern Physics A, 20 (29), 7016–7019.10.1142/S0217751X05030727
- 7. Bykov, A. M., Aharonian, F. A., Krassilchtchikov, A. M., Kholupenko, E.E., Aruev, P.N., Baiko, D.A., … & Chicagov, Yu.V. (2017). Cherenkov Gamma-Ray Telescopes: Past, Present, Future. ALEGRO Project. Technical Physics, 62 (6), 819–836.10.1134/S106378421706007X
- 8. Knoetig, M. L., Biland, A., Bretz, T., Buß, J., Dorner, D., Einecke, S., … & Zanglein, M. (2013). FACT – Long-term Stability and Observations during Strong Moon Light. In Proc. of the 33rd ICRC, Rio de Janeiro, id. 695, arXiv:1307.6116.
- 9. Guberman, D., Cortina, J., Garcia, R., Herrera, J., Manganaro, M., Moralejo, A., … & Will, M. (2015). Using UV-pass Filters for Bright Moon Observations with MAGIC. In Proc. of the 34th International Cosmic Ray Conference (ICRC2015), 34, id. 1237, arXiv:1509.02048.10.22323/1.236.1237
- 10. Kholupenko, E.E., Bykov, A.M., Aharonyan, F.A., Vasiliev, G.I., Krassilchtchikov, A.M., Aruev, P.N., … & Nikolaev, A.V. (2018). Detection of UV Radiation from Extensive Air Showers: Prospects for Cherenkov Gamma-Ray Astronomy. Technical Physics, 63 (11), 1603–1614.10.1134/S1063784218110154
- 11. Leinert, Ch., Bowyer, S., Haikala, L.K., Hanner, M.S., Hauser, M.G., Levasseur-Regourd, A.-Ch., … & Witt, A.N. (1998). The 1997 Reference of Diffuse Night Sky Brightness. Astronomy and AstrophysicsSupplement, 127, 1–99.10.1051/aas:1998105
- 12. Semiconductor Components Industries. (2018). OnSemi J-Series SiPM Sensors Datasheet. Rev. 6, MICROJ−SERIES/D. Available at https://www.onsemi.com/pub/Collateral/MICROJ-SERIES-D.PDF
- 13. Gallego, L., Rosado, J., Blanco, F., & Arqueros F. (2013). Modeling Crosstalk in Silicon Photomultipliers. JINST8 P05010. http://dx.doi.org/10.1088/1748-0221/8/05/P0501010.1088/1748-0221/8/05/P05010
- 14. Nagy, F., Mazzillo, M., Rennet, L., Valvo, G., Sanfilippo, D., Carbone, B., … & Molnar, J. (2014). Afterpulse and Delayed Crosstalk Analysis on a STMicroelectronics Silicon Photomultiplier. Nuclear Instruments and Methods in Physics Research Section A 759, 44–49.10.1016/j.nima.2014.04.045