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XRISM Spectroscopy of the Fe Kα Emission Line in the Seyfert Active Galactic Nucleus NGC 4151 Reveals the Disk, Broad-line Region, and Torus

XRISM Collaboration,Marc Audard,Hisamitsu Awaki,Ralf Ballhausen, Aya Bamba,Ehud Behar,Rozenn Boissay-Malaquin,Laura Brenneman,Gregory V. Brown,Lia Corrales,Elisa Costantini,Renata Cumbee,Maria Diaz Trigo,Chris Done,Tadayasu Dotani, Ken Ebisawa,Megan E. Eckart,Dominique Eckert, Teruaki Enoto,Satoshi Eguchi,Yuichiro Ezoe,Adam Foster, Ryuichi Fujimoto,Yutaka Fujita,Yasushi Fukazawa,Kotaro Fukushima,Akihiro Furuzawa,Luigi Gallo,Javier A. García,Liyi Gu,Matteo Guainazzi,Kouichi Hagino, Kenji Hamaguchi,Isamu Hatsukade, Katsuhiro Hayashi,Takayuki Hayashi,Natalie Hell,Edmund Hodges-Kluck,Ann Hornschemeier,Yuto Ichinohe,Manabu Ishida,Kumi Ishikawa,Yoshitaka Ishisaki,Jelle Kaastra,Timothy Kallman,Erin Kara,Satoru Katsuda,Yoshiaki Kanemaru,Richard Kelley,Caroline Kilbourne,Shunji Kitamoto,Shogo Kobayashi,Takayoshi Kohmura,Aya Kubota,Maurice Leutenegger,Michael Loewenstein,Yoshitomo Maeda,Maxim Markevitch,Hironori Matsumoto,Kyoko Matsushita,Dan McCammon,Brian McNamara,François Mernier, Eric D. Miller,Jon M. Miller,Ikuyuki Mitsuishi,Misaki Mizumoto,Tsunefumi Mizuno,Koji Mori,Koji Mukai, Hiroshi Murakami,Richard Mushotzky,Hiroshi Nakajima, Kazuhiro Nakazawa, Jan-Uwe Ness,Kumiko Nobukawa,Masayoshi Nobukawa,Hirofumi Noda,Hirokazu Odaka,Shoji Ogawa,Anna Ogorzalek, Takashi Okajima,Naomi Ota,Stephane Paltani, Robert Petre,Paul Plucinsky, Frederick S. Porter,Katja Pottschmidt,Kosuke Sato,Toshiki Sato,Makoto Sawada,Hiromi Seta,Megumi Shidatsu,Aurora Simionescu,Randall Smith, Hiromasa Suzuki,Andrew Szymkowiak, Hiromitsu Takahashi,Mai Takeo,Toru Tamagawa, Keisuke Tamura,Takaaki Tanaka,Atsushi Tanimoto, Makoto Tashiro,Yukikatsu Terada,Yuichi Terashima,Yohko Tsuboi,Masahiro Tsujimoto,Hiroshi Tsunemi,Takeshi Tsuru,Hiroyuki Uchida,Nagomi Uchida,Yuusuke Uchida,Hideki Uchiyama,Yoshihiro Ueda,Shinichiro Uno,Jacco Vink,Shin Watanabe, Brian J. Williams,Satoshi Yamada,Shinya Yamada,Hiroya Yamaguchi,Kazutaka Yamaoka,Noriko Yamasaki,Makoto Yamauchi,Shigeo Yamauchi,Tahir Yaqoob,Tomokage Yoneyama,Tessei Yoshida,Mihoko Yukita,Irina Zhuravleva, Xin Xiang,Takeo Minezaki, Margaret Buhariwalla, Dimitra Gerolymatou,Scott Hagen

The Astrophysical Journal Letters(2024)

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Abstract
We present an analysis of the first two XRISM/Resolve spectra of the well-known Seyfert-1.5 active galactic nucleus (AGN) in NGC 4151, obtained in 2023 December. Our work focuses on the nature of the narrow Fe K _α emission line at 6.4 keV, the strongest and most common X-ray line observed in AGN. The total line is found to consist of three components. Even the narrowest component of the line is resolved with evident Fe K _α _,1 (6.404 keV) and K _α _,2 (6.391 keV) contributions in a 2:1 flux ratio, fully consistent with neutral gas with negligible bulk velocity. Subject to the limitations of our models, the narrowest and intermediate-width components are consistent with emission from optically thin gas, suggesting that they arise in a disk atmosphere and/or wind. Modeling the three line components in terms of Keplerian broadening, they are readily associated with (1) the inner wall of the “torus,” (2) the innermost optical “broad-line region” (or “X-ray BLR”), and (3) a region with a radius of r ≃ 100 GM / c ^2 that may signal a warp in the accretion disk. Viable alternative explanations of the broadest component include a fast-wind component and/or scattering; however, we find evidence of variability in the narrow Fe K _α line complex on timescales consistent with small radii. The best-fit models are statistically superior to simple Voigt functions, but when fit with Voigt profiles the time-averaged lines are consistent with a projected velocity broadening of FWHM $\,=\,{1600}_{-200}^{+400}\,\mathrm{km}\,{{\rm{s}}}^{-1}$ . Overall, the resolution and sensitivity of XRISM show that the narrow Fe K line in AGN is an effective probe of all key parts of the accretion flow, as it is currently understood. We discuss the implications of these findings for our understanding of AGN accretion, future studies with XRISM, and X-ray-based black hole mass measurements.
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Key words
High energy astrophysics,High-luminosity active galactic nuclei,Accretion,Astrophysical black holes
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