Near-horizon Polarization as a Diagnostic of Black Hole Spacetime

The Astrophysical Journal Letters Pub Date : 2025-07-23 DOI:10.3847/2041-8213/adee09

Yehui Hou, Jiewei Huang, Minyong Guo, Yosuke Mizuno and Bin Chen

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Abstract

A key challenge in imaging supermassive black holes is disentangling gravitational effects from plasma physics in order to accurately determine spacetime properties, particularly black hole spin. In this Letter, we present a fully covariant and rigorous analysis of the synchrotron emission from accreting plasma in the equatorial plane in the stationary, axisymmetric, high-conductivity regime and identify—for the first time—a distinctive near-horizon polarization pattern that remains robust across different flow structures. This pattern arises from strong frame dragging near the event horizon, which induces a degeneracy among plasma flow and magnetic field configurations, yielding a polarization signature determined solely by the spacetime geometry and the observer’s inclination. The near-horizon polarization thus offers a clean and precise probe of black hole spin and other fundamental parameters. If future space-based millimeter very long baseline interferometry observations can resolve synchrotron emission originating within approximately 1% of the event horizon radius in M87* or Sgr A*, this universal polarization pattern may become observable.

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近视界偏振作为黑洞时空的诊断

成像超大质量黑洞的一个关键挑战是从等离子体物理中分离出引力效应，以便准确地确定时空特性，特别是黑洞的自旋。在这篇文章中，我们提出了一个完全协变和严格的分析，从赤道平面的吸聚等离子体在静止、轴对称、高电导率的状态下的同步加速器发射，并首次确定了一个独特的近视界极化模式，在不同的流结构中仍然保持稳健。这种模式是由视界附近的强框架拖拽引起的，它引起了等离子体流和磁场构型之间的简并，产生了仅由时空几何形状和观察者的倾角决定的极化特征。因此，近视界偏振提供了对黑洞自旋和其他基本参数的干净而精确的探测。如果未来天基毫米甚长基线干涉测量观测能够分辨出源自M87*或Sgr A*大约1%视界半径范围内的同步辐射，那么这种普遍极化模式可能会被观测到。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Astrophysical Journal Letters

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