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Precessing jet nozzle connecting to a spinning black hole in M87

Authors :
Yuzhu Cui
Kazuhiro Hada
Tomohisa Kawashima
Motoki Kino
Weikang Lin
Mareki Honma
Hyunwook Ro
Yosuke Mizuno
Kunwoo Yi
Jintao Yu
Jongho Park
Wu Jiang
Zhi-Qiang Shen
Evgeniya Kravchenko
Juan Carlos Algaba
Xiaopeng Cheng
Ilje Cho
Gabriele Giovannini
Marcello Giroletti
Taehyun Jung
Ru-Sen Lu
Kotaro Niinuma
Junghwan Oh
Ken Ohsuga
Satoko Sawada-Satoh
Bong Won Sohn
Hiroyuki R. Takahashi
Mieko Takamura
Fumie Tazaki
Sascha Trippe
Kiyoaki Wajima
Kazunori Akiyama
Tao An
Keiichi Asada
Salvo Buttaccio
Do-Young Byun
Lang Cui
Yoshiaki Hagiwara
Tomoya Hirota
Jeffrey Hodgson
Noriyuki Kawaguchi
Jaeheon Kim
Sang-sung Lee
Jee Won Lee
Jeong Ae Lee
Giuseppe Maccaferri
Andrea Melis
Alexey Melnikov
Carlo Migoni
Se-Jin Oh
Koichiro Sugiyama
Xuezheng Wang
Yingkang Zhang
Zhong Chen
Ju-Yeon Hwang
Dong-Kyu Jung
Hyo-Ryoung Kim
Jeong-Sook Kim
Hideyuki Kobayashi
Bin Li
Guanghui Li
Xiaofei Li
Z.Y. Liu
Qinghui Liu
Xiang Liu
Chung-Sik Oh
Tomoaki Oyama
Duk-Gyoo Roh
Jinqing Wang
Na Wang
Shiqiang Wang
Bo Xia
Hao Yan
Jae-Hwan Yeom
Yoshinori Yonekura
Jianping Yuan
Hua Zhang
Rongbin Zhao
Weiye Zhong
Publication Year :
2023
Publisher :
Research Square Platform LLC, 2023.

Abstract

Powerful relativistic jets in active galactic nuclei (AGN) are believed to be originated from the accretion of material onto the supermassive black hole (SMBH)1. The nearby radio galaxy M87 is one of the best examples of this phenomenon, and the recent detection of a black-hole shadow with the Event Horizon Telescope provided compelling evidence for this paradigm2. However, whether the central SMBH in M87 has a spin or not, a fundamental parameter of a BH along with the mass, remains unconstrained by observations since the appearance of the photon ring is rather insensitive to the spin2-4. A clue to this challenge is to trace the long-term evolution of the innermost jet base where the central BH and accretion disk tightly regulate its flow dynamics. Here we report an extensive analysis of the morphological evolution of the M87 jet nozzle based on 170 high-resolution radio images spanning more than two decades. The ensemble of the data reveals a periodic (a period of 11 years) variation of the jet direction with a peak-to-peak amplitude of ~10 deg on the sky. A successful fit of a precession model to the data as well as general-relativistic magnetohydrodynamic simulations strongly supports the presence of a spinning BH in M87, inducing a Lense-Thirring precession of a misaligned accretion disk by the frame-dragging effect5. Our results suggest that jet precession with a spinning BH can commonly exist in other more distant AGN but had evaded detection due to the small magnitude and long period of position angle variation.

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........0c66f184e1000057cb765e6d0e73bd19