Multi-wavelength torus-jet model for Sagittarius A*

VINCENT, Frédéric H., Marek ABRAMOWICZ, Andrzej A. ZDZIARSKI, Maciej Iek WIELGUS, Thibaut PAUMARD, Guy S. PERRIN a Odelle STRAUB. Multi-wavelength torus-jet model for Sagittarius A*. Astronomy & Astrophysics. 2019, roč. 624, April, s. "A52-1"-"A52-11", 11 s. ISSN 0004-6361. Dostupné z: https://dx.doi.org/10.1051/0004-6361/201834946.

Další formáty: BibTeX LaTeX RIS

TY  - JOUR
ID  - 37445
AU  - Vincent, Frédéric H. - Abramowicz, Marek - Zdziarski, Andrzej A. - Wielgus, Maciej Iek - Paumard, Thibaut - Perrin, Guy S. - Straub, Odelle
PY  - 2019
TI  - Multi-wavelength torus-jet model for Sagittarius A*
JF  - Astronomy & Astrophysics
VL  - 624
IS  - April
SP  - "A52-1"-"A52-11"
EP  - "A52-1"-"A52-11"
SN  - 00046361
KW  - Galaxy: center
KW  - accretion: accretion disks
KW  - black hole physics
KW  - relativistic processes
UR  - https://www.aanda.org/articles/aa/abs/2019/04/aa34946-18/aa34946-18.html
L2  - https://www.aanda.org/articles/aa/abs/2019/04/aa34946-18/aa34946-18.html
N2  - Context. The properties of the accretion/ejection flow surrounding the supermassive central black hole of the Galaxy Sgr A* will be scrutinized by the new-generation instrument GRAVITY and the Event Horizon Telescope (EHT). Developing fast, robust, and simple models of such flows is therefore important and very timely. Aims. We want to model the quiescent emission of Sgr A* from radio to mid-infrared wavelengths, using thermal and nonthermal synchrotron. The radiation is emitted by the overlay of a magnetized compact torus close to the black hole, and a large-scale magnetized jet. We compare model spectra and images to the multi-wavelength observable constraints available to date. We simulate EHT observations at 1.3 mm of the best-fit model for different inclinations. Methods. We use a simple analytic description for the geometry of the torus and jet. We model their emission by thermal synchrotron and kappa-distribution synchrotron, respectively. We use relativistic ray tracing to compute simulated spectra and images, restricting our analysis to the Schwarzschild (zero spin) case. A best-fit is found by adjusting the simulated spectra to the latest observed data, and we check the consistency of our spectral best fits with the radio-image sizes and infrared spectral index constraints. We use the open-source eht-imaging library to generate EHT-reconstructed images. Results. We find perfect spectral fit (chi^(2)_(red) approximate to 1)both for nearly face-on and nearly edge-on views. These best fits give parameter values very close to those found by the most recent numerical simulations, which are much more complex than our model. The intrinsic radio size of Sgr A* is found to be in reasonable agreement with the centimetric observed constraints. Our best-fit infrared spectral index is in perfect agreement with the latest constraints. Our emission region at 1.3 mm, although larger than the early-EHT Gaussian best fit, does contain bright features at the less than or similar to 40 mu as scale. EHT-reconstructed images show that torus/jet-specific features persist after the reconstruction procedure, and that these features are sensitive to inclination. Conclusions. The main interest of our model is to provide a simple and fast model of the quiescent state of Sgr A*, which gives extremely similar results to those of state-of-the-art numerical simulations. Our model is easy to use and we publish all the material necessary to reproduce our spectra and images, meaning that anyone interested can use our results relatively straightforwardly. We hope that such a public tool will be useful in the context of the recent and near-future GRAVITY and EHT results.
ER  -

Základní údaje
Originální název	Multi-wavelength torus-jet model for Sagittarius A*
Autoři	VINCENT, Frédéric H. (250 Francie), Marek ABRAMOWICZ (616 Polsko, garant, domácí), Andrzej A. ZDZIARSKI (616 Polsko), Maciej Iek WIELGUS (616 Polsko), Thibaut PAUMARD (250 Francie), Guy S. PERRIN (250 Francie) a Odelle STRAUB (756 Švýcarsko).
Vydání	Astronomy & Astrophysics, 2019, 0004-6361.

Další údaje
Originální jazyk	angličtina
Typ výsledku	Článek v odborném periodiku
Obor	10308 Astronomy
Stát vydavatele	Francie
Utajení	není předmětem státního či obchodního tajemství
WWW	URL
Kód RIV	RIV/47813059:19240/19:A0000437
Organizační jednotka	Filozoficko-přírodovědecká fakulta v Opavě
Doi	http://dx.doi.org/10.1051/0004-6361/201834946
UT WoS	000463695200002
Klíčová slova anglicky	Galaxy: center; accretion: accretion disks; black hole physics; relativistic processes
Štítky	FÚ, GA17-16287S, RIVOK
Příznaky	Mezinárodní význam, Recenzováno
Návaznosti	GA17-16287S, projekt VaV.
Změnil	Změnila: Ing. Petra Skoumalová, učo 50554. Změněno: 21. 4. 2020 10:33.

Anotace

Context. The properties of the accretion/ejection flow surrounding the supermassive central black hole of the Galaxy Sgr A* will be scrutinized by the new-generation instrument GRAVITY and the Event Horizon Telescope (EHT). Developing fast, robust, and simple models of such flows is therefore important and very timely. Aims. We want to model the quiescent emission of Sgr A* from radio to mid-infrared wavelengths, using thermal and nonthermal synchrotron. The radiation is emitted by the overlay of a magnetized compact torus close to the black hole, and a large-scale magnetized jet. We compare model spectra and images to the multi-wavelength observable constraints available to date. We simulate EHT observations at 1.3 mm of the best-fit model for different inclinations. Methods. We use a simple analytic description for the geometry of the torus and jet. We model their emission by thermal synchrotron and kappa-distribution synchrotron, respectively. We use relativistic ray tracing to compute simulated spectra and images, restricting our analysis to the Schwarzschild (zero spin) case. A best-fit is found by adjusting the simulated spectra to the latest observed data, and we check the consistency of our spectral best fits with the radio-image sizes and infrared spectral index constraints. We use the open-source eht-imaging library to generate EHT-reconstructed images. Results. We find perfect spectral fit (chi^(2)_(red) approximate to 1)both for nearly face-on and nearly edge-on views. These best fits give parameter values very close to those found by the most recent numerical simulations, which are much more complex than our model. The intrinsic radio size of Sgr A* is found to be in reasonable agreement with the centimetric observed constraints. Our best-fit infrared spectral index is in perfect agreement with the latest constraints. Our emission region at 1.3 mm, although larger than the early-EHT Gaussian best fit, does contain bright features at the less than or similar to 40 mu as scale. EHT-reconstructed images show that torus/jet-specific features persist after the reconstruction procedure, and that these features are sensitive to inclination. Conclusions. The main interest of our model is to provide a simple and fast model of the quiescent state of Sgr A*, which gives extremely similar results to those of state-of-the-art numerical simulations. Our model is easy to use and we publish all the material necessary to reproduce our spectra and images, meaning that anyone interested can use our results relatively straightforwardly. We hope that such a public tool will be useful in the context of the recent and near-future GRAVITY and EHT results.

VytisknoutZobrazeno: 8. 5. 2024 22:39

Multi-wavelength torus-jet model for Sagittarius A*

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