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Main Authors: Bakshi, S. D., Barry, P., Bissolotti, C., Cloet, I., Corrodi, S., Djurcic, Z., Habib, S., Heitmann, K., Hobbs, T. J., Hopkins, W., Joosten, S., Kriesten, B., Ramachandra, N., Wells, A., Zurek, M.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.02426
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author Bakshi, S. D.
Barry, P.
Bissolotti, C.
Cloet, I.
Corrodi, S.
Djurcic, Z.
Habib, S.
Heitmann, K.
Hobbs, T. J.
Hopkins, W.
Joosten, S.
Kriesten, B.
Ramachandra, N.
Wells, A.
Zurek, M.
author_facet Bakshi, S. D.
Barry, P.
Bissolotti, C.
Cloet, I.
Corrodi, S.
Djurcic, Z.
Habib, S.
Heitmann, K.
Hobbs, T. J.
Hopkins, W.
Joosten, S.
Kriesten, B.
Ramachandra, N.
Wells, A.
Zurek, M.
contents Progress in modern physics has been supported by a steadily expanding corpus of numerical analyses and computational frameworks, which in turn form the basis for precision calculations and baseline predictions in experimental programs. These tools play a central role in navigating a complex landscape of theoretical models and current and potential observables to identify and understand fundamental interactions in physics. In addition, efforts to search for new fundamental interactions increasingly have a cross-disciplinary nature, such that understanding and leveraging interoperabilities among computational tools may be a significant enhancement. This work presents a new agentic AI framework, which we call ArgoLOOM, designed to bridge methodologies and computational analyses across cosmology, collider physics, and nuclear science. We describe the system contours, key internal aspects, and outline its potential for unifying scientific discovery pipelines. In the process, we demonstrate the use of ArgoLOOM on two small-scale problems to illustrate its conceptual foundations and potential for extensibility into a steadily growing agentic framework for fundamental physics.
format Preprint
id arxiv_https___arxiv_org_abs_2510_02426
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle ArgoLOOM: agentic AI for fundamental physics from quarks to cosmos
Bakshi, S. D.
Barry, P.
Bissolotti, C.
Cloet, I.
Corrodi, S.
Djurcic, Z.
Habib, S.
Heitmann, K.
Hobbs, T. J.
Hopkins, W.
Joosten, S.
Kriesten, B.
Ramachandra, N.
Wells, A.
Zurek, M.
High Energy Physics - Phenomenology
Cosmology and Nongalactic Astrophysics
Nuclear Theory
Progress in modern physics has been supported by a steadily expanding corpus of numerical analyses and computational frameworks, which in turn form the basis for precision calculations and baseline predictions in experimental programs. These tools play a central role in navigating a complex landscape of theoretical models and current and potential observables to identify and understand fundamental interactions in physics. In addition, efforts to search for new fundamental interactions increasingly have a cross-disciplinary nature, such that understanding and leveraging interoperabilities among computational tools may be a significant enhancement. This work presents a new agentic AI framework, which we call ArgoLOOM, designed to bridge methodologies and computational analyses across cosmology, collider physics, and nuclear science. We describe the system contours, key internal aspects, and outline its potential for unifying scientific discovery pipelines. In the process, we demonstrate the use of ArgoLOOM on two small-scale problems to illustrate its conceptual foundations and potential for extensibility into a steadily growing agentic framework for fundamental physics.
title ArgoLOOM: agentic AI for fundamental physics from quarks to cosmos
topic High Energy Physics - Phenomenology
Cosmology and Nongalactic Astrophysics
Nuclear Theory
url https://arxiv.org/abs/2510.02426