Modulations of the Cosmic Muon Signal in Ten Years of Borexino Data

The Borexino Collaboration; M. Agostini; K. Altenm\"uller; S. Appel,; V. Atroshchenko; Z. Bagdasarian; D. Basilico; G. Bellini; J. Benziger; D.; Bick; I. Bolognino; G. Bonfini; D. Bravo; B. Caccianiga; F. Calaprice; A.; Caminata; S. Caprioli; M. Carlini; P. Cavalcante; F. Cavanna; A. Chepurnov,; K. Choi; L. Collica; D. D'Angelo; S. Davini; A. Derbin; X.F. Ding; A. Di; Ludovico; L. Di Noto; I. Drachnev; K. Fomenko; A. Formozov; D. Franco; F.; Gabriele; C. Galbiati; M. Gschwender; C. Ghiano; M. Giammarchi; A. Goretti,; M. Gromov; D. Guffanti; C. Hagner; T. Houdy; E. Hungerford; Aldo Ianni,; Andrea Ianni; A. Jany; D. Jeschke; V. Kobychev; D. Korablev; G. Korga; V.A.; Kudryavtsev; S. Kumaran; T. Lachenmaier; M. Laubenstein; E. Litvinovich; F.; Lombardi; P. Lombardi; L. Ludhova; G. Lukyanchenko; L. Lukyanchenko; I.; Machulin; G. Manuzio; S. Marcocci; J. Maricic; J. Martyn; S. Meighen-Berger,; E. Meroni; M. Meyer; L. Miramonti; M. Misiaszek; V. Muratova; B. Neumair; M.; Nieslony; L. Oberauer; B. Opitz; V. Orekhov; F. Ortica; M. Pallavicini; L.; Papp; \"O. Penek; L. Pietrofaccia; N. Pilipenko; A. Pocar; A. Porcelli; G.; Raikov; G. Ranucci; A. Razeto; A. Re; M. Redchuk; A. Romani; N. Rossi; S.; Rottenanger; S. Sch\"onert; D. Semenov; M. Skorokhvatov; O. Smirnov; A.; Sotnikov; L.F.F. Stokes; Y. Suvorov; R. Tartaglia; G. Testera; J. Thurn; M.; Toropova; E. Unzhakov; A. Vishneva; R.B. Vogelaar; F. von Feilitzsch; S.; Weinz; M. Wojcik; M. Wurm; Z. Yokley; O. Zaimidoroga; S. Zavatarelli; K.; Zuber; G. Zuzel

arXiv:1808.04207·hep-ex·March 6, 2019

Modulations of the Cosmic Muon Signal in Ten Years of Borexino Data

The Borexino Collaboration, M. Agostini, K. Altenm\"uller, S. Appel,, V. Atroshchenko, Z. Bagdasarian, D. Basilico, G. Bellini, J. Benziger, D., Bick, I. Bolognino, G. Bonfini, D. Bravo, B. Caccianiga, F. Calaprice, A., Caminata, S. Caprioli, M. Carlini, P. Cavalcante

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TL;DR

This study analyzes ten years of Borexino data to measure cosmic muon flux, observe seasonal and long-term modulations, and explore their correlation with atmospheric temperature and solar activity, providing insights into atmospheric particle interactions.

Contribution

It provides the first detailed measurement of muon flux modulation over a decade at Gran Sasso and links it to atmospheric and solar phenomena, including the kaon-to-pion production ratio.

Findings

01

Muon flux shows a seasonal modulation with 1.36% amplitude.

02

Long-term muon flux modulation with a ~3000-day period is observed.

03

Cosmogenic neutron production also varies seasonally with increased amplitude.

Abstract

We have measured the flux of cosmic muons in the Laboratori Nazionali del Gran Sasso at 3800\,m\,w.e. to be $(3.432 \pm 0.003) \cdot 1 0^{- 4} m^{- 2} s^{- 1}$ based on ten years of Borexino data acquired between May 2007 and May 2017. A seasonal modulation with a period of $(366.3 \pm 0.6) d$ and a relative amplitude of $(1.36 \pm 0.04) %$ is observed. The phase is measured to be $(181.7 \pm 0.4) d$ , corresponding to a maximum at the 1 $^{st}$ of July. Using data inferred from global atmospheric models, we show the muon flux to be positively correlated with the atmospheric temperature and measure the effective temperature coefficient $α_{T} = 0.90 \pm 0.02$ . The origin of cosmic muons from pion and kaon decays in the atmosphere allows to interpret the effective temperature coefficient as an indirect measurement of the atmospheric kaon-to-pion…

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