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1. Trinity’s Sensitivity to Isotropic and Point-Source Neutrinos

Author

Anthony M. Brown, M. Bagheri, N. Otte, Eliza Gazda, Ignacio Taboada, Chaoxian Lin, Michele Doro, and Andrew Wang

Subjects
Physics, Point source, Astrophysics::High Energy Astrophysical Phenomena, Isotropy, Astrophysics::Instrumentation and Methods for Astrophysics, Flux, FOS: Physical sciences, Astrophysics, Physics::Plasma Physics, Cutoff, High Energy Physics::Experiment, Transient (oscillation), Sensitivity (control systems), Neutrino, Astrophysics - Instrumentation and Methods for Astrophysics, Electronic band structure, Instrumentation and Methods for Astrophysics (astro-ph.IM)
Abstract

The neutrino band above 10 PeV remains one of the last multi-messenger windows to be opened, a challenge that several groups tackle. One of the proposed instruments is Trinity, a system of air-shower imaging telescopes to detect Earth-skimming neutrinos with energies from $10^6$ GeV to $10^{10}$ GeV. We present updated sensitivity calculations demonstrating Trinity's capability of not only detecting the IceCube measured diffuse astrophysical neutrino flux but doing so in an energy band that overlaps with IceCube's. Trinity will distinguish between different cutoff scenarios of the astrophysical neutrino flux, which will help identify their sources. We also discuss Trinity's sensitivity to transient sources on timescales from hours to years., Comment: Proceedings of the 37th International Cosmic Ray Conference, PoS(ICRC2021)1234

Published
2022

3. The POEMMA (Probe of Extreme Multi-Messenger Astrophysics) observatory

Author

Patrick J. Reardon, P. Bertone, A. Anzalone, Y. Takizawa, Kevin-Druis Merenda, Ke Fang, S. Mackovjak, M. Bagheri, Roberto Aloisio, M. E. Bertaina, S. S. Meyer, G. Filippatos, Ralf Ulrich, D. Barghini, Douglas Bergman, Jane Nachtman, Yasar Onel, Fred Sarazin, R. Young, E. G. Judd, Mark Christl, D. Winn, K. Shinozaki, Angela V. Olinto, Miroslav Pech, P. Picozza, L. Marcelli, E. Hays, G. Prévôt, M. Battisti, Dusan Mandat, Floyd W. Stecker, F. Oikonomou, Z. Plebaniak, A. Haungs, Jorge F. Soriano, Ralph Engel, A. N. Otte, John Mitchell, Francesco Fenu, Johannes Eser, Mauricio Bustamante, Petr Schovanek, Eliza Gazda, M. Ricci, Mikhail Zotov, Rossella Caruso, Andrii Neronov, E. Parizot, Luis A. Anchordoqui, Valentina Scotti, V. Kungel, A. L. Cummings, F. Cafagna, Pavel Klimov, Marco Casolino, James H. Adams, C. Guepin, G. Osteria, E. Kuznetsov, O. Romero Matamala, I. De Mitri, K. Černý, J. S. Perkins, Tonia M. Venters, R. Diesing, T. Paul, L. R. Wiencke, G. Medina-Tanco, Mary Hall Reno, John F. Krizmanic, H. Miyamoto, Lech Wiktor Piotrowski, Julie McEnery, Francesca Bisconti, M. Unger, Collaboration, P., Olinto, A. V., Krizmanic, J., Adams, J. H., Aloisio, R., Anchordoqui, L. A., Anzalone, A., Bagheri, M., Barghini, D., Battisti, M., Bergman, D. R., Bertaina, M. E., Bertone, P. F., Bisconti, F., Bustamante, M., Cafagna, F., Caruso, R., Casolino, M., Cerny, K., Christl, M. J., Cummings, A. L., De Mitri, I., Diesing, R., Engel, R., Eser, J., Fang, K., Fenu, F., Filippatos, G., Gazda, E., Guepin, C., Haungs, A., Hays, E. A., Judd, E. G., Klimov, P., Kungel, V., Kuznetsov, E., Mackovjak, S., Mandat, D., Marcelli, L., Mcenery, J., Medina-Tanco, G., Merenda, K. -D., Meyer, S. S., Mitchell, J. W., Miyamoto, H., Nachtman, J. M., Neronov, A., Oikonomou, F., Onel, Y., Osteria, G., Otte, A. N., Parizot, E., Paul, T., Pech, M., Perkins, J. S., Picozza, P., Piotrowski, L. W., Plebaniak, Z., Prevot, G., Reardon, P., Reno, M. H., Ricci, M., Romero Matamala, O., Sarazin, F., Schovanek, P., Scotti, V., Shinozaki, K., Soriano, J. F., Stecker, F., Takizawa, Y., Ulrich, R., Unger, M., Venters, T. M., Wiencke, L., Winn, D., Young, R. M., Zotov, M., AstroParticule et Cosmologie (APC (UMR_7164)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), POEMMA, and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité)

Subjects
air: fluorescence, cosmic rays detectors, neutrino astronomy, ultra high energy cosmic rays, ultra high energy photons and neutrinos, Astrophysics, 7. Clean energy, 01 natural sciences, neutrino: flux, ultra high energy cosmic ray, law.invention, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), Observatory, law, ultraviolet, optical, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Cherenkov, orbit, Physics, High Energy Astrophysical Phenomena (astro-ph.HE), COSMIC cancer database, formation, Astrophysics::Instrumentation and Methods for Astrophysics, Schmidt camera, neutrino: UHE, observatory, Neutrino, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics::High Energy Astrophysical Phenomena, satellite, FOS: Physical sciences, Cosmic ray, Telescope, 0103 physical sciences, cosmic radiation: UHE, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], cosmic rays detector, Instrumentation and Methods for Astrophysics (astro-ph.IM), Cherenkov radiation, neutrino/tau, showers: atmosphere, hybrid, 010308 nuclear & particles physics, detector: surface, Astronomy and Astrophysics, neutrino: particle source, sensitivity, messenger, 13. Climate action, Neutrino astronomy, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]
Abstract

The Probe Of Extreme Multi-Messenger Astrophysics (POEMMA) is designed to accurately observe ultra-high-energy cosmic rays (UHECRs) and cosmic neutrinos from space with sensitivity over the full celestial sky. POEMMA will observe the extensive air showers (EASs) from UHECRs and UHE neutrinos above 20 EeV via air fluorescence. Additionally, POEMMA will observe the Cherenkov signal from upward-moving EASs induced by Earth-interacting tau neutrinos above 20 PeV. The POEMMA spacecraft are designed to quickly re-orientate to follow up transient neutrino sources and obtain unparalleled neutrino flux sensitivity. Developed as a NASA Astrophysics Probe-class mission, POEMMA consists of two identical satellites flying in loose formation in 525 km altitude orbits. Each POEMMA instrument incorporates a wide field-of-view (45$^\circ$) Schmidt telescope with over 6 m$^2$ of collecting area. The hybrid focal surface of each telescope includes a fast (1~$\mu$s) near-ultraviolet camera for EAS fluorescence observations and an ultrafast (10~ns) optical camera for Cherenkov EAS observations. In a 5-year mission, POEMMA will provide measurements that open new multi-messenger windows onto the most energetic events in the universe, enabling the study of new astrophysics and particle physics at these otherwise inaccessible energies., Comment: 66 pages, 53 figures; JCAP accepted version

Published
2021

4. Trinity: An Imaging Air Cherenkov Telescope to Search for Ultra-High-Energy Neutrinos

Author

Anthony Brown, Mahdi Bagheri, Michele Doro, Eliza Gazda, Dave Kieda, Chaoxian Lin, Nepomuk Otte, Ignacio Taboada, Andrew Wang, Kappes, Alexander, and Keilhauer, Bianca

Subjects
Physics, Telescope, High energy, law, Astronomy, Neutrino, Cherenkov radiation, law.invention
Abstract

Earth-skimming neutrinos are those which travel through the Earth’s crust at a shallow angle. For Ultra-High-Energy (E휈 > 1 PeV; UHE) earth-skimming tau neutrinos, there is a high-probability that the tau lepton created by a neutrino-Earth interaction will emerge from the ground before it decays. When this happens, the decaying tau particle initiates an air shower of relativistic sub-atomic particles which emit Cherenkov radiation. To observe this Cherenkov radiation, we propose the Trinity Observatory. Using a novel optical structure design, pointing at the horizon, Trinity will observe the Cherenkov radiation from upward-going neutrino-induced air showers. Being sensitive to neutrinos in the 1 − 104 PeV energy range, Trinity’s expected sensitivity will have a unique role to play filling the gap between the observed astrophysical neutrinos observed by IceCube and the expected sensitivity of radio UHE neutrino detectors.

Published
2021

5. Development of a Cherenkov Telescope for the Detection of Ultra-High Energy Neutrinos with EUSO-SPB2 and POEMMA

Author

Oscar Romero Matamala, Lawrence Wiencke, John Krizmanic, Jem-Euso, Eleanor Judd, Evgeny Kutzenzov, Eliza Gazda, Patrick J. Reardon, A. Nepomuk Otte, and Poemma Collaborations

Subjects
Physics, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, media_common.quotation_subject, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy, Cosmic ray, Universe, law.invention, Telescope, Silicon photomultiplier, law, Particle shower, Tau neutrino, High Energy Physics::Experiment, Neutrino, Cherenkov radiation, media_common
Abstract

The detection of astrophysical neutrinos by IceCube and the potential to constrain source models of ultra-high energy cosmic rays provide the motivation to develop instruments for the observation of neutrinos above $10^7$ GeV. Among the different techniques to detect ultra-high energy neutrinos is the Earth-skimming technique. It makes use of the fact that the tau produced in a tau neutrino interaction inside the Earth can emerge from the ground and initiate an upward-going particle shower in the atmosphere. The particle shower and thus the neutrino can be reconstructed by measuring the Cherenkov and radio emission from the shower particles. In this presentation, we discuss our ongoing development of a Cherenkov telescope for the detection of tau neutrinos, which is to be deployed on the Extreme Universe Space Observatory Super Pressure Balloon 2 (EUSO-SPB2) and is a precursor experiment for the proposed Probe of Extreme Multi-Messenger Astrophysics (POEMMA) mission. POEMMA aims at the detection of ultrahigh energy cosmic rays and ultrahigh energy neutrinos from low earth orbit. The 1 m$^2$ Cherenkov telescope for EUSO-SPB2 will use silicon photomultipliers coupled to a 100 MS/s readout based on the ASIC for General Electronics for TPC`s (AGET) switch capacitor ring sampler. We present the optics, results from our studies to qualify the readout concept and the design of the mechanical integration of the photon detectors and the readout into the telescope.

Published
2019

6. Photon detection efficiency measurements of the VERITAS Cherenkov telescope photomultipliers after four years of operation

Author

Thanh Huy Nguyen, N. Otte, Gregory Richards, and Eliza Gazda

Subjects
Photomultiplier, Physics - Instrumentation and Detectors, Photon, FOS: Physical sciences, 01 natural sciences, Photocathode, High Energy Physics - Experiment, law.invention, Telescope, High Energy Physics - Experiment (hep-ex), Optics, law, 0103 physical sciences, Emission spectrum, Instrumentation and Methods for Astrophysics (astro-ph.IM), 010303 astronomy & astrophysics, Instrumentation, Mathematical Physics, Cherenkov radiation, Physics, 010308 nuclear & particles physics, business.industry, Instrumentation and Detectors (physics.ins-det), Sample (graphics), Astrophysics - Instrumentation and Methods for Astrophysics, business, Sensitivity (electronics)
Abstract

The photon detection efficiency of two sets of R10560-100-20 superbialkali photomultiplier tubes from Hamamatsu were measured between 200 nm and 750 nm to quantify a possible degradation of the photocathode sensitivity after four years of operation in the cameras of the VERITAS Cherenkov telescopes. A sample of 20 photomultiplier tubes, which was removed from the telescopes was compared with a sample of 20 spare photomultiplier tubes, which had been kept in storage. It is found that the average photocathode sensitivity marginally increased below 300 nm and dropped by 10% to 30% above 500 nm. The average photocathode sensitivity folded with the Cherenkov spectrum emitted by particles in air showers, however, reveals a consistent detection yield of 18.9+/-0.2% and 19.1+/-0.2% for the sample removed from the telescope and the spare sample, respectively., 5 pages, 9 figures, submitted to JINST

Published
2016

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