|
Special Colloquium |
Erandi Chavez
| SCHEDULED |
Center for Astrophysics
Does the supermassive black hole at the center of our galaxy,
Sagittarius A* (Sgr A*), have a jet? Results from Event Horizon
Telescope (EHT) data favor accretion flow models in which one is
present, however, it has not been conclusively detected. Using
simulated
data based on the 2017 EHT best-best models of Sgr A*, we explore the
possibility of detecting this jet with existing and next-generation
VLBI
arrays at 86, 115, 230, and 345 GHz. The competing astrophysical
effects
of jet power, jet variability, and interstellar scattering due to
ionized plasma between Earth and the Galactic Center add complexity to
the prospects for jet recovery in images of Sgr A*. In addition, the
VLBI arrays we consider have different array configurations and
instrument sensitivities that significantly influence their ability to
image the jet. While current VLBI arrays are unable to capture the jet,
next-generation arrays at 86 and 115 GHz such as the ngVLA and the
next-generation EHT are able to image the jet. The prospects towards
detecting a jet in Sgr A* are bright and motivate the continued
development of these next-generation radio observatories.