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XRISM spectroscopy of the stellar-mass black hole GRS 1915+105

XRISM spectroscopy of the stellar-mass black hole GRS 1915+105
XRISM spectroscopy of the stellar-mass black hole GRS 1915+105
GRS 1915+105 was the stellar-mass black hole that best reproduced key phenomena that are also observed in Type-1 active galactic nuclei. In recent years, however, it has evolved to resemble a Type-2or Compton-thick AGN. Herein, we report on the first XRISM observation of GRS 1915+105. The high-resolution Resolve calorimeter spectrum reveals that a sub-Eddington central engine is covered by a layer of warm, Compton-thick gas. With the obscuration acting as a coronagraph, numerous strong, narrow emission lines from He-like and H-like charge states of Si, S, Ar, Ca, Cr, Mn, Fe, and Ni dominate the spectrum. Radiative recombination continuum (RRC) features are also observed, signaling that much of the emitting gas is photoionized. The line spectrum can be fit by three photoionized emission zones, with broadening and bulk velocities suggestive of an origin in the outer disk atmosphere and/or a slow wind at r ≃ 106 GM/c2. The Fe XXV He-α and Fe XXVI Ly-α lines have a broad base that may indicate some emission from r ∼ 3×103 GM/c2. These results broadly support a picture wherein the current state in GRS 1915+105 is due to obscuration by the irradiated outer disk. This could arise through disk thickening if the Eddington fraction is higher than inferred, but it is more likely due to a warped, precessing disk that has brought the outer disk into the line of sight. We discuss the strengths and weaknesses of this interpretation and our modeling, and possible explanations of some potentially novel spectral features
astro-ph.HE
2041-8205
Miller, Jon M.
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Gu, Liyi
85f0b244-910c-4038-92f7-70af30496e91
Raymond, John
c8b893e9-de93-4d72-bbb4-ac0a22593e71
Brenneman, Laura
3e431caf-d8a8-43d3-8bea-72a00cc96d05
Gallo, Elena
e7cac881-a21a-4cc5-8fc3-0a7ad7a97025
Gandhi, Poshak
5bc3b5af-42b0-4dd8-8f1f-f74048d4d4a9
Kallman, Timothy
0764a443-2cc6-4f87-98bc-82a06b386069
Kobayashi, Shogo
75c89e25-fd29-49d8-a4d0-3904824f8daf
Mao, Junjie
5bea54ea-30a3-4bd9-9b46-2ee089cb3c73
Rogantini, Daniele
36caa078-5480-4757-a64c-6ec485b45b50
Shidatsu, Megumi
39ba1a77-6f15-4b0f-b8c8-897c380af018
Ueda, Yoshihiro
ddeff1dd-582e-40cc-973c-1f30d47cdbef
Xiang, Xin
5cb897b0-6bea-4f03-8688-7dc4ca96e64a
Zoghbi, Abderahmen
a578472d-97af-4503-8104-02308383687d
Miller, Jon M.
02ab5fc3-1c48-4c4e-8343-8dc75c7fbf8a
Gu, Liyi
85f0b244-910c-4038-92f7-70af30496e91
Raymond, John
c8b893e9-de93-4d72-bbb4-ac0a22593e71
Brenneman, Laura
3e431caf-d8a8-43d3-8bea-72a00cc96d05
Gallo, Elena
e7cac881-a21a-4cc5-8fc3-0a7ad7a97025
Gandhi, Poshak
5bc3b5af-42b0-4dd8-8f1f-f74048d4d4a9
Kallman, Timothy
0764a443-2cc6-4f87-98bc-82a06b386069
Kobayashi, Shogo
75c89e25-fd29-49d8-a4d0-3904824f8daf
Mao, Junjie
5bea54ea-30a3-4bd9-9b46-2ee089cb3c73
Rogantini, Daniele
36caa078-5480-4757-a64c-6ec485b45b50
Shidatsu, Megumi
39ba1a77-6f15-4b0f-b8c8-897c380af018
Ueda, Yoshihiro
ddeff1dd-582e-40cc-973c-1f30d47cdbef
Xiang, Xin
5cb897b0-6bea-4f03-8688-7dc4ca96e64a
Zoghbi, Abderahmen
a578472d-97af-4503-8104-02308383687d

Miller, Jon M., Gu, Liyi, Raymond, John, Brenneman, Laura, Gallo, Elena, Gandhi, Poshak, Kallman, Timothy, Kobayashi, Shogo, Mao, Junjie, Rogantini, Daniele, Shidatsu, Megumi, Ueda, Yoshihiro, Xiang, Xin and Zoghbi, Abderahmen (2025) XRISM spectroscopy of the stellar-mass black hole GRS 1915+105. The Astrophysical Journal Letters, 995 (1). (doi:10.48550/arXiv.2510.25089).

Record type: Article

Abstract

GRS 1915+105 was the stellar-mass black hole that best reproduced key phenomena that are also observed in Type-1 active galactic nuclei. In recent years, however, it has evolved to resemble a Type-2or Compton-thick AGN. Herein, we report on the first XRISM observation of GRS 1915+105. The high-resolution Resolve calorimeter spectrum reveals that a sub-Eddington central engine is covered by a layer of warm, Compton-thick gas. With the obscuration acting as a coronagraph, numerous strong, narrow emission lines from He-like and H-like charge states of Si, S, Ar, Ca, Cr, Mn, Fe, and Ni dominate the spectrum. Radiative recombination continuum (RRC) features are also observed, signaling that much of the emitting gas is photoionized. The line spectrum can be fit by three photoionized emission zones, with broadening and bulk velocities suggestive of an origin in the outer disk atmosphere and/or a slow wind at r ≃ 106 GM/c2. The Fe XXV He-α and Fe XXVI Ly-α lines have a broad base that may indicate some emission from r ∼ 3×103 GM/c2. These results broadly support a picture wherein the current state in GRS 1915+105 is due to obscuration by the irradiated outer disk. This could arise through disk thickening if the Eddington fraction is higher than inferred, but it is more likely due to a warped, precessing disk that has brought the outer disk into the line of sight. We discuss the strengths and weaknesses of this interpretation and our modeling, and possible explanations of some potentially novel spectral features

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2510.25089v2 - Author's Original
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Miller_2025_ApJL_995_L14 - Version of Record
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More information

Accepted/In Press date: 29 October 2025
e-pub ahead of print date: 4 December 2025
Additional Information: Accepted for publication in ApJL
Keywords: astro-ph.HE

Identifiers

Local EPrints ID: 508826
URI: http://eprints.soton.ac.uk/id/eprint/508826
DOI: doi:10.48550/arXiv.2510.25089
ISSN: 2041-8205
PURE UUID: 87b726b9-6841-43b8-ae12-4df46f80b1f9
ORCID for Poshak Gandhi: ORCID iD orcid.org/0000-0003-3105-2615

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Date deposited: 04 Feb 2026 17:39
Last modified: 05 Feb 2026 02:47

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Contributors

Author: Jon M. Miller
Author: Liyi Gu
Author: John Raymond
Author: Laura Brenneman
Author: Elena Gallo
Author: Poshak Gandhi ORCID iD
Author: Timothy Kallman
Author: Shogo Kobayashi
Author: Junjie Mao
Author: Daniele Rogantini
Author: Megumi Shidatsu
Author: Yoshihiro Ueda
Author: Xin Xiang
Author: Abderahmen Zoghbi

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