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The Molecular Structure of Thought: Mapping the Topology of Long Chain-of-Thought Reasoning

Large language models (LLMs) often fail to learn effective long chain-of-thought (Long CoT) reasoning from human or non-Long-CoT LLMs imitation. To understand this, we propose that effective and learnable Long CoT trajectories feature stable molecular-like structures in unified view, which are formed by three interaction types: Deep-Reasoning (covalent-like), Self-Reflection (hydrogen-bond-like), and Self-Exploration (van der Waals-like). Analysis of distilled trajectories reveals these structures emerge from Long CoT fine-tuning, not keyword imitation. We introduce Effective Semantic Isomers and show that only bonds promoting fast entropy convergence support stable Long CoT learning, while structural competition impairs training. Drawing on these findings, we present Mole-Syn, a distribution-transfer-graph method that guides synthesis of effective Long CoT structures, boosting performance and RL stability across benchmarks.

preprint2026arXivOpen access
Qiguang ChenYantao DuZiniu LiJinhao LiuSongyao DuanJiarui GuoMinghao LiuJiaheng LiuTong YangGe ZhangLibo QinWanxiang CheWenhao Huang
Computation and LanguageArtificial Intelligence
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Open access13 authors2 topics
Imported metadata coverageMissing code, dataset, citation and institution fields are tracked without dominating the paper.Details
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Qiguang ChenYantao DuZiniu LiJinhao LiuSongyao DuanJiarui GuoMinghao LiuJiaheng LiuTong YangGe ZhangLibo QinWanxiang CheWenhao Huang

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