The Astrophysical Journal (Jan 2024)

Atmospheric Limitations for High-frequency Ground-based Very Long Baseline Interferometry

  • Dominic W. Pesce,
  • Lindy Blackburn,
  • Ryan Chaves,
  • Sheperd S. Doeleman,
  • Mark Freeman,
  • Sara Issaoun,
  • Michael D. Johnson,
  • Greg Lindahl,
  • Iniyan Natarajan,
  • Scott N. Paine,
  • Daniel C. M. Palumbo,
  • Freek Roelofs,
  • Paul Tiede

DOI
https://doi.org/10.3847/1538-4357/ad3961
Journal volume & issue
Vol. 968, no. 2
p. 69

Abstract

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Very long baseline interferometry (VLBI) provides the highest-resolution images in astronomy. The sharpest resolution is nominally achieved at the highest frequencies, but as the observing frequency increases, so too does the atmospheric contribution to the system noise, degrading the sensitivity of the array and hampering detection. In this paper, we explore the limits of high-frequency VLBI observations using ngehtsim , a new tool for generating realistic synthetic data. ngehtsim uses detailed historical atmospheric models to simulate observing conditions, and it employs heuristic visibility detection criteria that emulate single- and multifrequency VLBI calibration strategies. We demonstrate the fidelity of ngehtsim’s predictions using a comparison with existing 230 GHz data taken by the Event Horizon Telescope (EHT), and we simulate the expected performance of EHT observations at 345 GHz. Though the EHT achieves a nearly 100% detection rate at 230 GHz, our simulations indicate that it should expect substantially poorer performance at 345 GHz; in particular, observations of M87* at 345 GHz are predicted to achieve detection rates of ≲20% that may preclude imaging. Increasing the array sensitivity through wider bandwidths and/or longer integration times—as enabled through, e.g., the simultaneous multifrequency upgrades envisioned for the next-generation EHT—can improve the 345 GHz prospects and yield detection levels that are comparable to those at 230 GHz. M87* and Sgr A* observations carried out in the atmospheric window around 460 GHz could expect to regularly achieve multiple detections on long baselines, but analogous observations at 690 and 875 GHz consistently obtain almost no detections at all.

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