2018ApJ...857...23C -
Astrophys. J., 857, 23-23 (2018/April-2)
Interferometric imaging directly with closure phases and closure amplitudes.
CHAEL A.A., JOHNSON M.D., BOUMAN K.L., BLACKBURN L.L., AKIYAMA K. and NARAYAN R.
Abstract (from CDS):
Interferometric imaging now achieves angular resolutions as fine as ∼10 µas, probing scales that are inaccessible to single telescopes. Traditional synthesis imaging methods require calibrated visibilities; however, interferometric calibration is challenging, especially at high frequencies. Nevertheless, most studies present only a single image of their data after a process of "self-calibration," an iterative procedure where the initial image and calibration assumptions can significantly influence the final image. We present a method for efficient interferometric imaging directly using only closure amplitudes and closure phases, which are immune to station-based calibration errors. Closure-only imaging provides results that are as noncommittal as possible and allows for reconstructing an image independently from separate amplitude and phase self-calibration. While closure-only imaging eliminates some image information (e.g., the total image flux density and the image centroid), this information can be recovered through a small number of additional constraints. We demonstrate that closure-only imaging can produce high-fidelity results, even for sparse arrays such as the Event Horizon Telescope, and that the resulting images are independent of the level of systematic amplitude error. We apply closure imaging to VLBA and ALMA data and show that it is capable of matching or exceeding the performance of traditional self-calibration and CLEAN for these data sets.
Abstract Copyright:
© 2018. The American Astronomical Society. All rights reserved.
Journal keyword(s):
accretion, accretion disks - black hole physics - Galaxy: center - techniques: high angular resolution - techniques: image processing
Simbad objects:
5
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