What question did this study set out to answer?

The research aims to understand the evolutionary history of galaxy clusters and the role of active galactic nuclei (AGN) in their development.

March 28, 2026

Investigating the Evolutionary History of Nearby Galaxy Clusters Using DSL Low-Frequency Imaging Data

Key Points

The research aims to understand the evolutionary history of galaxy clusters and the role of active galactic nuclei (AGN) in their development.
Utilized low-frequency imaging data in the range of 0.1-30 MHz
Analyzed diffuse radio emission in galaxy clusters
Fitted multi-frequency spectral energy distributions
Estimated electron energy loss and jet age
Reconstructed the AGN activity history to assess its impact on cluster evolution
Identified the physical properties of relativistic electrons, magnetic fields, and turbulence within galaxy clusters
Quantified the influence of AGN feedback on central galaxy evolution and cooling flows
Revealed implications for the thermal balance and overall evolution of galaxy clusters

Abstract

星系团作为宇宙中最大的引力束缚结构，是研究宇宙物质循环、大尺度结构形成演化、环境对星系演化影响等天体物理前沿课题的宇宙最佳实验室。星系团中的弥散射电辐射作为其非热成分的直接探针，示踪星系团际介质中的弥散结构以及非热演化特征。而由于同步辐射损耗，这些结构的射电频谱往往非常陡，因此低频流量更高。这一特性使得低频观测成为研究星系团中弥散射电辐射的关键手段。鸿蒙低频0.1-30MHz全天高精度成像是探测星系团中射电弥散辐射的最低频（最长波）电磁窗口，将揭示星系团际介质中相对论电子、磁场、湍流、冲击波等的物理性质，进而深化对星系团形成、动力学演化、能量反馈与宇宙磁场等关键科学问题的理解。此外，星系团中活动星系核（Active Galactic Nucleus，AGN）反馈对星系团中心星系的演化、冷却流的抑制、维持星系团热平衡以及星系团整体演化（如将冷核星系团转变为非冷核星系团）都具有重要影响。基于鸿蒙0.1-30MHz高精度低频成像观测，我们将通过多频谱能量分布拟合，估算电子能量损失和喷流年龄，重建AGN的周期性活动历史（AGN duty cycle），从而定量评估其对中心星系演化、冷却流抑制以及星系团整体演化的影响。

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Investigating the Evolutionary History of Nearby Galaxy Clusters Using DSL Low-Frequency Imaging Data

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Abstract

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