$Multiwavelength Observations of the Black Hole X-ray Binary MAXI J1820$+$070 in the Rebrightening Phase$

Multiwavelength Observations of the Black Hole X-ray Binary MAXI J1820$+$070 in the Rebrightening Phase

We report the results of quasi-simultaneous multiwavelength (near-infrared, optical, UV, and X-ray) observations of the Galactic X-ray black hole binary MAXI J1820+070 performed in 2019 May 10-13, $\sim 60$ days after the onset of the first rebrightening phase. It showed a much larger optical-to-X...

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Veröffentlicht in:	arXiv.org 2024-12
Hauptverfasser:	Yoshitake, Tomohiro, Shidatsu, Megumi, Ueda, Yoshihiro, Shin Mineshige, Murata, Katsuhiro L, Adachi, Ryo, Maehara, Hiroyuki, Nogami, Daisaku, Negoro, Hitoshi, Kawai, Nobuyuki, Niwano, Masafumi, Hosokawa, Ryohei, Saito, Tomoki, Oasa, Yumiko, Takarada, Takuya, Shigeyoshi, Takumi, Collaboration, OISTER
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Sprache:	eng
Schlagworte:	Alpha rays Black holes Emission Luminosity Physics - High Energy Astrophysical Phenomena Spectral energy distribution Synchrotron radiation X ray binaries X ray stars X-ray astronomy
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creator	Yoshitake, Tomohiro Shidatsu, Megumi Ueda, Yoshihiro Shin Mineshige Murata, Katsuhiro L Adachi, Ryo Maehara, Hiroyuki Nogami, Daisaku Negoro, Hitoshi Kawai, Nobuyuki Niwano, Masafumi Hosokawa, Ryohei Saito, Tomoki Oasa, Yumiko Takarada, Takuya Shigeyoshi, Takumi Collaboration, OISTER
description	We report the results of quasi-simultaneous multiwavelength (near-infrared, optical, UV, and X-ray) observations of the Galactic X-ray black hole binary MAXI J1820+070 performed in 2019 May 10-13, $\sim 60$ days after the onset of the first rebrightening phase. It showed a much larger optical-to-X-ray luminosity ratio ($\sim 8$) than in the initial outburst epoch. The primary components of the spectral energy distribution (SED) can be best interpreted by radiatively inefficient accretion flow (RIAF) spectrum showing a luminosity peak in the optical band. By comparison with theoretical calculations, we estimate the mass accretion rate to be $\dot{M}/(8 L_{\rm Edd}/c^2) \sim 10^{-3}$, where $c$ is the light speed and $L_{\rm Edd}$ is the Eddington luminosity. In addition to the RIAF emission, a blue power-law component is detected in the optical-UV SED, which is most likely synchrotron radiation from the jet. The optical spectrum taken at the Seimei telescope shows a weak and narrow H$\alpha$ emission line, whose emitting region is constrained to be $\gtrsim 2 \times 10^{4}$ times the gravitational radius. We suggest that the entire disk structure cannot be described by a single RIAF solution but cooler material responsible for the H$\alpha$ emission must exist at the outermost region.
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It showed a much larger optical-to-X-ray luminosity ratio ($\sim 8$) than in the initial outburst epoch. The primary components of the spectral energy distribution (SED) can be best interpreted by radiatively inefficient accretion flow (RIAF) spectrum showing a luminosity peak in the optical band. By comparison with theoretical calculations, we estimate the mass accretion rate to be $\dot{M}/(8 L_{\rm Edd}/c^2) \sim 10^{-3}$, where $c$ is the light speed and $L_{\rm Edd}$ is the Eddington luminosity. In addition to the RIAF emission, a blue power-law component is detected in the optical-UV SED, which is most likely synchrotron radiation from the jet. The optical spectrum taken at the Seimei telescope shows a weak and narrow H$\alpha$ emission line, whose emitting region is constrained to be $\gtrsim 2 \times 10^{4}$ times the gravitational radius. 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It showed a much larger optical-to-X-ray luminosity ratio ($\sim 8$) than in the initial outburst epoch. The primary components of the spectral energy distribution (SED) can be best interpreted by radiatively inefficient accretion flow (RIAF) spectrum showing a luminosity peak in the optical band. By comparison with theoretical calculations, we estimate the mass accretion rate to be $\dot{M}/(8 L_{\rm Edd}/c^2) \sim 10^{-3}$, where $c$ is the light speed and $L_{\rm Edd}$ is the Eddington luminosity. In addition to the RIAF emission, a blue power-law component is detected in the optical-UV SED, which is most likely synchrotron radiation from the jet. The optical spectrum taken at the Seimei telescope shows a weak and narrow H$\alpha$ emission line, whose emitting region is constrained to be $\gtrsim 2 \times 10^{4}$ times the gravitational radius. 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subjects	Alpha rays Black holes Emission Luminosity Physics - High Energy Astrophysical Phenomena Spectral energy distribution Synchrotron radiation X ray binaries X ray stars X-ray astronomy
title	Multiwavelength Observations of the Black Hole X-ray Binary MAXI J1820$+$070 in the Rebrightening Phase
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Multiwavelength Observations of the Black Hole X-ray Binary MAXI J1820\(+\)070 in the Rebrightening Phase