The intrinsic structure of Sagittarius A* at 1.3 cm and 7 mm

Ilje Cho (1,2,3); Guang-Yao Zhao (3,1); Tomohisa Kawashima (4); Motoki; Kino (5,6); Kazunori Akiyama (7,8,5); Michael D. Johnson (9,8); Sara Issaoun; (10); Kotaro Moriyama (11,7); Xiaopeng Cheng (1); Juan-Carlos Algaba (12),; Taehyun Jung (1,2); Bong Won Sohn (1,2,13); Thomas P. Krichbaum (14); Maciek; Wielgus (9,8); Kazuhiro Hada (11,15); Ru-Sen Lu (16,17,14); Yuzhu Cui; (11,15); Satoko Sawada-Satoh (18); Zhiqiang Shen (16,17); Jongho Park; (19,20); Wu Jiang (16,17); Hyunwook Ro (13,1); Kunwoo Yi (20); Kiyoaki Wajima; (1); Jee Won Lee (1); Jeffrey Hodgson (21); Fumie Tazaki (11); Mareki Honma; (11,15); Kotaro Niinuma (22,23); Sascha Trippe (20,24); Tao An (16); Yingkang; Zhang (16); Jeong Ae Lee (1); Se-Jin Oh (1); Do-Young Byun (1,2); Sang-Sung; Lee (1,2); Jae-Young Kim (1); Junghwan Oh (1); Shoko Koyama (25,19); Keiichi; Asada (19); Xuezheng Wang (16); Lang Cui (26,17); Yoshiaki Hagiwara (27),; Masanori Nakamura (28,19); Mieko Takamura (5); Tomoya Hirota (5); Koichiro; Sugiyama (29); Noriyuki Kawaguchi (5); Hideyuki Kobayashi (11); Tomoaki Oyama; (11); Yoshinori Yonekura (30); Jongsoo Kim (1); Ju-Yeon Hwang (1); Dong-Kyu; Jung (1); Hyo-Ryoung Kim (1); Jeong-Sook Kim (31); Chung-Sik Oh (1); Duk-Gyoo; Roh (1); Jae-Hwan Yeom (1); Bo Xia (16,17); Weiye Zhong (16,17); Bin Li; (16,17); Rongbing Zhao (16,17); Jinqing Wang (16,17); Qinghui Liu (16,17),; Zhong Chen (16,17) ((1) Korea Astronomy; Space Science Institute; (2); University of Science; Technology; (3) Instituto de Astrofisica de; Andalucia-CSIC; (4) Institute for Cosmic Ray Research; The University of; Tokyo; (5) National Astronomical Observatory of Japan; (6) Kogakuin; University of Technology; Engineering; (7) Massachusetts Institute of; Technology Haystack Observatory; (8) Black Hole Initiative at Harvard; University; (9) Center for Astrophysics; Harvard; Smithsonian; (10); Department of Astrophysics; Institute for Mathematics; Astrophysics and; Particle Physics (IMAPP); Radboud University; (11) Mizusawa VLBI Observatory,; (12) Department of Physics Faculty of Science; University of Malaya; (13); Department of Astronomy; Yonsei University; (14) Max-Planck-Institut fur; Radioastronomie; (15) Department of Astronomical Science; The Graduate; University for Advanced Studies (SOKENDAI); (16) Shanghai Astronomical; Observatory; (17) Key Laboratory of Radio Astronomy; (18) The Research; Institute for Time Studies; Yamaguchi University; (19) Institute of Astronomy; and Astrophysics; Academia Sinica; (20) Department of Physics; Astronomy,; Seoul National University; (21) Department of Physics; Astronomy; Sejong; University; (22) Graduate School of Sciences; Technology for Innovation,; Yamaguchi University; (23) The Research Institute for Time Studies; Yamaguchi; University; (24) SNU Astronomy Research Center; Seoul National University,; (25) Niigata University; (26) Xinjiang Astronomical Observatory; (27) Toyo; University; (28) National Institute of Technology; Hachinohe College; (29); National Astronomical Research Institute of Thailand (Public Organization),; (30) Center for Astronomy; Ibaraki University; (31) Basic Science Research; Institute; Chungbuk National University)

arXiv:2112.04929·astro-ph.HE·April 6, 2022

The intrinsic structure of Sagittarius A* at 1.3 cm and 7 mm

Ilje Cho (1,2,3), Guang-Yao Zhao (3,1), Tomohisa Kawashima (4), Motoki, Kino (5,6), Kazunori Akiyama (7,8,5), Michael D. Johnson (9,8), Sara Issaoun, (10), Kotaro Moriyama (11,7), Xiaopeng Cheng (1), Juan-Carlos Algaba (12),, Taehyun Jung (1,2), Bong Won Sohn (1,2,13)

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TL;DR

This study used VLBI observations at multiple wavelengths to analyze the intrinsic structure of Sagittarius A*, revealing size scales that follow a power-law with wavelength and suggesting a nonthermal electron population in the accretion flow.

Contribution

First detailed VLBI measurements of Sgr A* at 1.3 cm and 7 mm with scattering mitigation, modeling the intrinsic structure as a symmetric Gaussian and linking size to wavelength.

Findings

01

Intrinsic size scales with wavelength as a power-law (index ~1.2).

02

Gaussian model describes the intrinsic structure at both wavelengths.

03

Nonthermal electrons are needed to explain the observed sizes.

Abstract

Sagittarius A* (Sgr A*), the Galactic Center supermassive black hole (SMBH), is one of the best targets to resolve the innermost region of SMBH with very long baseline interferometry (VLBI). In this study, we have carried out observations toward Sgr A* at 1.349 cm (22.223 GHz) and 6.950 mm (43.135 GHz) with the East Asian VLBI Network, as a part of the multi-wavelength campaign of the Event Horizon Telescope (EHT) in 2017 April. To mitigate scattering effects, the physically motivated scattering kernel model from Psaltis et al. (2018) and the scattering parameters from Johnson et al. (2018) have been applied. As a result, a single, symmetric Gaussian model well describes the intrinsic structure of Sgr A* at both wavelengths. From closure amplitudes, the major-axis sizes are ~704 $\pm$ 102 $μ$ as (axial ratio $\sim$ 1.19 $_{- 0.19}^{+ 0.24}$ ) and $\sim$ 300 $\pm$ 25 $μ$ as (axial ratio…

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