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Autores principales: Kong, Chuyi, Wei, Gao, Ma, Jing, Lin, Hongzhan, Sun, Yuxi
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2511.20233
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author Kong, Chuyi
Wei, Gao
Ma, Jing
Lin, Hongzhan
Sun, Yuxi
author_facet Kong, Chuyi
Wei, Gao
Ma, Jing
Lin, Hongzhan
Sun, Yuxi
contents The prevalence of fake news on social media demands automated fact-checking systems to provide accurate verdicts with faithful explanations. However, existing large language model (LLM)-based approaches ignore deceptive misinformation styles in LLM-generated explanations, resulting in unfaithful rationales that can mislead human judgments. They rely heavily on external knowledge sources, introducing hallucinations and even high latency that undermine reliability and responsiveness, which is crucial for real-time use. To address these challenges, we propose REason-guided Fact-checking with Latent EXplanations (REFLEX), a self-refining paradigm that explicitly controls reasoning style anchored on verdict. REFLEX utilizes self-disagreement veracity signals between the backbone model and its fine-tuned variant to construct steering vectors, naturally disentangling fact from style. Experiments on the real-world dataset show REFLEX achieves state-of-the-art performance under LLaMA-series models with only 465 self-refined samples. Moreover, owing to its transferability, REFLEX yields up to a 7.54% gain on in-the-wild data. Our results further demonstrate that our method effectively mitigates faithful hallucination, thereby guiding the model toward more accurate verdicts than previous works in explainable fact-checking.
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publishDate 2025
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spellingShingle REFLEX: Self-Refining Explainable Fact-Checking via Verdict-Anchored Style Control
Kong, Chuyi
Wei, Gao
Ma, Jing
Lin, Hongzhan
Sun, Yuxi
Computation and Language
The prevalence of fake news on social media demands automated fact-checking systems to provide accurate verdicts with faithful explanations. However, existing large language model (LLM)-based approaches ignore deceptive misinformation styles in LLM-generated explanations, resulting in unfaithful rationales that can mislead human judgments. They rely heavily on external knowledge sources, introducing hallucinations and even high latency that undermine reliability and responsiveness, which is crucial for real-time use. To address these challenges, we propose REason-guided Fact-checking with Latent EXplanations (REFLEX), a self-refining paradigm that explicitly controls reasoning style anchored on verdict. REFLEX utilizes self-disagreement veracity signals between the backbone model and its fine-tuned variant to construct steering vectors, naturally disentangling fact from style. Experiments on the real-world dataset show REFLEX achieves state-of-the-art performance under LLaMA-series models with only 465 self-refined samples. Moreover, owing to its transferability, REFLEX yields up to a 7.54% gain on in-the-wild data. Our results further demonstrate that our method effectively mitigates faithful hallucination, thereby guiding the model toward more accurate verdicts than previous works in explainable fact-checking.
title REFLEX: Self-Refining Explainable Fact-Checking via Verdict-Anchored Style Control
topic Computation and Language
url https://arxiv.org/abs/2511.20233