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Main Authors: Wang, Hanbin, Song, Jingwei, Li, Jinpeng, Zhu, Qi, Mi, Fei, Cui, Ganqu, Wang, Yasheng, Shang, Lifeng
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.12720
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author Wang, Hanbin
Song, Jingwei
Li, Jinpeng
Zhu, Qi
Mi, Fei
Cui, Ganqu
Wang, Yasheng
Shang, Lifeng
author_facet Wang, Hanbin
Song, Jingwei
Li, Jinpeng
Zhu, Qi
Mi, Fei
Cui, Ganqu
Wang, Yasheng
Shang, Lifeng
contents Large Reasoning Models (LRMs) have recently shown impressive performance on complex reasoning tasks, often by engaging in self-reflective behaviors such as self-critique and backtracking. However, not all reflections are beneficial-many are superficial, offering little to no improvement over the original answer and incurring computation overhead. In this paper, we identify and address the problem of superficial reflection in LRMs. We first propose Self-Critique Fine-Tuning (SCFT), a training framework that enhances the model's reflective reasoning ability using only self-generated critiques. SCFT prompts models to critique their own outputs, filters high-quality critiques through rejection sampling, and fine-tunes the model using a critique-based objective. Building on this strong foundation, we further introduce Reinforcement Learning with Effective Reflection Rewards (RLERR). RLERR leverages the high-quality reflections initialized by SCFT to construct reward signals, guiding the model to internalize the self-correction process via reinforcement learning. Experiments on two challenging benchmarks, AIME2024 and AIME2025, show that SCFT and RLERR significantly improve both reasoning accuracy and reflection quality, outperforming state-of-the-art baselines. All data and codes are available at https://github.com/wanghanbinpanda/SCFT.
format Preprint
id arxiv_https___arxiv_org_abs_2601_12720
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Teaching Large Reasoning Models Effective Reflection
Wang, Hanbin
Song, Jingwei
Li, Jinpeng
Zhu, Qi
Mi, Fei
Cui, Ganqu
Wang, Yasheng
Shang, Lifeng
Artificial Intelligence
Large Reasoning Models (LRMs) have recently shown impressive performance on complex reasoning tasks, often by engaging in self-reflective behaviors such as self-critique and backtracking. However, not all reflections are beneficial-many are superficial, offering little to no improvement over the original answer and incurring computation overhead. In this paper, we identify and address the problem of superficial reflection in LRMs. We first propose Self-Critique Fine-Tuning (SCFT), a training framework that enhances the model's reflective reasoning ability using only self-generated critiques. SCFT prompts models to critique their own outputs, filters high-quality critiques through rejection sampling, and fine-tunes the model using a critique-based objective. Building on this strong foundation, we further introduce Reinforcement Learning with Effective Reflection Rewards (RLERR). RLERR leverages the high-quality reflections initialized by SCFT to construct reward signals, guiding the model to internalize the self-correction process via reinforcement learning. Experiments on two challenging benchmarks, AIME2024 and AIME2025, show that SCFT and RLERR significantly improve both reasoning accuracy and reflection quality, outperforming state-of-the-art baselines. All data and codes are available at https://github.com/wanghanbinpanda/SCFT.
title Teaching Large Reasoning Models Effective Reflection
topic Artificial Intelligence
url https://arxiv.org/abs/2601.12720