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Main Authors: Sarmiento-Cano, C., Asorey, H., Audelo, M., Fauth, A. Campos, Cazar-Ramirez, D., Gulisano, A. M., Lopez-Rodriguez, J. A., Mayo-Garcia, R., Molina, J., Otiniano, L., Sacahui, J. R., Secchia-Gonzalez, G., Sidelnik, I., Nunez, L. A.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.10893
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author Sarmiento-Cano, C.
Asorey, H.
Audelo, M.
Fauth, A. Campos
Cazar-Ramirez, D.
Gulisano, A. M.
Lopez-Rodriguez, J. A.
Mayo-Garcia, R.
Molina, J.
Otiniano, L.
Sacahui, J. R.
Secchia-Gonzalez, G.
Sidelnik, I.
Nunez, L. A.
author_facet Sarmiento-Cano, C.
Asorey, H.
Audelo, M.
Fauth, A. Campos
Cazar-Ramirez, D.
Gulisano, A. M.
Lopez-Rodriguez, J. A.
Mayo-Garcia, R.
Molina, J.
Otiniano, L.
Sacahui, J. R.
Secchia-Gonzalez, G.
Sidelnik, I.
Nunez, L. A.
contents The Latin American Giant Observatory (LAGO) is a collaborative initiative that deploys a network of low-cost, autonomous Water Cherenkov Detectors across Latin America and Spain. Initially focused on detecting gamma-ray bursts at high-altitude sites, LAGO has evolved into a multidisciplinary forum for astroparticle physics, space weather studies, and environmental monitoring. Its detectors operate from sea level to over 4300 meters above sea level (m a.s.l.) in diverse geomagnetic and atmospheric conditions. The ARTI-MEIGA simulation framework is a key development that models the entire cosmic-ray interaction chain, enabling site-specific simulations to be integrated into FAIR-compliant workflows. LAGO also plays a significant role in regional education and training through partnerships with ERASMUS+ projects, positioning itself as a hub for research capacity building. New contributions emerging from the collaboration include volcano muography, neutron hydrometry for precision agriculture, and space weather monitoring in the South Atlantic Magnetic Anomaly. LAGO demonstrates how Cherenkov-based detection and open science can drive scientific discovery and practical innovation.
format Preprint
id arxiv_https___arxiv_org_abs_2601_10893
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle From a Network to a Networking: The Evolution of the Latin American Giant Observatory
Sarmiento-Cano, C.
Asorey, H.
Audelo, M.
Fauth, A. Campos
Cazar-Ramirez, D.
Gulisano, A. M.
Lopez-Rodriguez, J. A.
Mayo-Garcia, R.
Molina, J.
Otiniano, L.
Sacahui, J. R.
Secchia-Gonzalez, G.
Sidelnik, I.
Nunez, L. A.
High Energy Astrophysical Phenomena
Nuclear Experiment
The Latin American Giant Observatory (LAGO) is a collaborative initiative that deploys a network of low-cost, autonomous Water Cherenkov Detectors across Latin America and Spain. Initially focused on detecting gamma-ray bursts at high-altitude sites, LAGO has evolved into a multidisciplinary forum for astroparticle physics, space weather studies, and environmental monitoring. Its detectors operate from sea level to over 4300 meters above sea level (m a.s.l.) in diverse geomagnetic and atmospheric conditions. The ARTI-MEIGA simulation framework is a key development that models the entire cosmic-ray interaction chain, enabling site-specific simulations to be integrated into FAIR-compliant workflows. LAGO also plays a significant role in regional education and training through partnerships with ERASMUS+ projects, positioning itself as a hub for research capacity building. New contributions emerging from the collaboration include volcano muography, neutron hydrometry for precision agriculture, and space weather monitoring in the South Atlantic Magnetic Anomaly. LAGO demonstrates how Cherenkov-based detection and open science can drive scientific discovery and practical innovation.
title From a Network to a Networking: The Evolution of the Latin American Giant Observatory
topic High Energy Astrophysical Phenomena
Nuclear Experiment
url https://arxiv.org/abs/2601.10893