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Autori principali: Jian, Dong-Shan, Li, Xiang, Yan, Chen-Xu, Zheng, Hui-Wen, Bian, Zhi-Zhang, Fang, You-Le, He, Ren-Xi, Zhang, Jing-Tian, Meng, Ce, Meng, Ling-Shi, Gong, Bing-Rui, Zhang, Sheng-Qi, Ma, Yan-Qing
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.10515
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author Jian, Dong-Shan
Li, Xiang
Yan, Chen-Xu
Zheng, Hui-Wen
Bian, Zhi-Zhang
Fang, You-Le
He, Ren-Xi
Zhang, Jing-Tian
Meng, Ce
Meng, Ling-Shi
Gong, Bing-Rui
Zhang, Sheng-Qi
Ma, Yan-Qing
author_facet Jian, Dong-Shan
Li, Xiang
Yan, Chen-Xu
Zheng, Hui-Wen
Bian, Zhi-Zhang
Fang, You-Le
He, Ren-Xi
Zhang, Jing-Tian
Meng, Ce
Meng, Ling-Shi
Gong, Bing-Rui
Zhang, Sheng-Qi
Ma, Yan-Qing
contents Olympiad-level physics problem-solving significantly challenges both humans and artificial intelligence (AI), as it requires integrating appropriate modeling, application of physical principles, and precise calculation within long reasoning processes. In this paper, we introduce LOCA (LOgical Chain Augmentation), an AI agent framework designed for complex physics reasoning. LOCA decomposes long reasoning into serialized atomic and verifiable steps, refining the solution through an augment-review loop. We evaluate LOCA on the 2025 Chinese Physics Olympiad (CPhO) theory examination, a rigorous testbed renowned for its depth and complexity. The framework achieves a near-perfect score of 313 out of 320 points, significantly surpassing the top human competitor and other baseline methods. Furthermore, LOCA attains a near-perfect score of 28.6 out of 30 on the IPhO 2025 examination, demonstrating its strong generalizability across different contexts. Our work points toward the development of trustworthy AI partners in both research and education.
format Preprint
id arxiv_https___arxiv_org_abs_2511_10515
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Mastering Olympiad-Level Physics with Artificial Intelligence
Jian, Dong-Shan
Li, Xiang
Yan, Chen-Xu
Zheng, Hui-Wen
Bian, Zhi-Zhang
Fang, You-Le
He, Ren-Xi
Zhang, Jing-Tian
Meng, Ce
Meng, Ling-Shi
Gong, Bing-Rui
Zhang, Sheng-Qi
Ma, Yan-Qing
Computation and Language
Artificial Intelligence
Physics Education
Olympiad-level physics problem-solving significantly challenges both humans and artificial intelligence (AI), as it requires integrating appropriate modeling, application of physical principles, and precise calculation within long reasoning processes. In this paper, we introduce LOCA (LOgical Chain Augmentation), an AI agent framework designed for complex physics reasoning. LOCA decomposes long reasoning into serialized atomic and verifiable steps, refining the solution through an augment-review loop. We evaluate LOCA on the 2025 Chinese Physics Olympiad (CPhO) theory examination, a rigorous testbed renowned for its depth and complexity. The framework achieves a near-perfect score of 313 out of 320 points, significantly surpassing the top human competitor and other baseline methods. Furthermore, LOCA attains a near-perfect score of 28.6 out of 30 on the IPhO 2025 examination, demonstrating its strong generalizability across different contexts. Our work points toward the development of trustworthy AI partners in both research and education.
title Mastering Olympiad-Level Physics with Artificial Intelligence
topic Computation and Language
Artificial Intelligence
Physics Education
url https://arxiv.org/abs/2511.10515