Prospects of Detecting a Jet in Sagittarius A with Very-long-baseline Interferometry

Prospects of Detecting a Jet in Sagittarius A with Very-long-baseline Interferometry

Event Horizon Telescope (EHT) images of the horizon-scale emission around the Galactic center supermassive black hole Sagittarius A* (Sgr A*) favor accretion flow models with a jet component. However, this jet has not been conclusively detected. Using the “best-bet” models of Sgr A* from the EHT Col...

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Veröffentlicht in:The Astrophysical journal 2024-10, Vol.974 (1), p.116
Hauptverfasser: Chavez, Erandi, Issaoun, Sara, Johnson, Michael D., Tiede, Paul, Fromm, Christian, Mizuno, Yosuke
Format: Artikel
Sprache:eng
Schlagworte:
Active galactic nuclei
Arrays
Astronomical models
Black holes
Event horizon
Galactic center
Image reconstruction
Interferometry
Interstellar scattering
Low-luminosity active galactic nuclei
Optical analysis
Optical thickness
Radio astronomy
Radio jets
Supermassive black holes
Very long base interferometry
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container_start_page 116
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creator Chavez, Erandi
Issaoun, Sara
Johnson, Michael D.
Tiede, Paul
Fromm, Christian
Mizuno, Yosuke
description Event Horizon Telescope (EHT) images of the horizon-scale emission around the Galactic center supermassive black hole Sagittarius A* (Sgr A*) favor accretion flow models with a jet component. However, this jet has not been conclusively detected. Using the “best-bet” models of Sgr A* from the EHT Collaboration, we assess whether this nondetection is expected for current facilities and explore the prospects of detecting a jet with very-long-baseline interferometry (VLBI) at four frequencies: 86, 115, 230, and 345 GHz. We produce synthetic image reconstructions for current and next-generation VLBI arrays at these frequencies that include the effects of interstellar scattering, optical depth, and time variability. We find that no existing VLBI arrays are expected to detect the jet in these best-bet models, consistent with observations to date. We show that next-generation VLBI arrays at 86 and 115 GHz—in particular, the EHT after upgrades through the ngEHT program and the ngVLA—successfully capture the jet in our tests due to improvements in instrument sensitivity and ( u , v ) coverage at spatial scales critical to jet detection. These results highlight the potential of enhanced VLBI capabilities in the coming decade to reveal the crucial properties of Sgr A* and its interaction with the Galactic center environment.
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subjects Active galactic nuclei
Arrays
Astronomical models
Black holes
Event horizon
Galactic center
Image reconstruction
Interferometry
Interstellar scattering
Low-luminosity active galactic nuclei
Optical analysis
Optical thickness
Radio astronomy
Radio jets
Supermassive black holes
Very long base interferometry
title Prospects of Detecting a Jet in Sagittarius A with Very-long-baseline Interferometry
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