Holographic imaging of crowded fields: High angular resolution imaging with excellent quality at very low cost

  • R. Schödel /
  • S. Yelda /
  • A. Ghez /
  • J. H. Girard /
  • L. Labadie /
  • R. Rebolo /
  • A. ṕerez-Garrido /
  • M. R. Morris
Journal ar
Monthly Notices of the Royal Astronomical Society
  • Volumen: 429
  • Número: 2
  • Fecha: 25 February 2013
  • Páginas: 1367-1375
  • ISSN: 00358711 13652966
  • Source Type: Journal
  • DOI: 10.1093/mnras/sts420
  • Document Type: Article
We present a method for speckle holography that is optimized for crowded fields. Its two key features are an iterative improvement of the instantaneous point spread functions (PSFs) extracted from each speckle frame and the (optional) simultaneous use of multiple reference stars. In this way, high signal-to-noise ratio and accuracy can be achieved on the PSF for each short exposure, which results in sensitive, high-Strehl reconstructed images. We have tested our method with different instruments, on a range of targets, and from the N[10 ¿m] to the I[0.9 ¿m] band. In terms of PSF cosmetics, stability and Strehl ratio, holographic imaging can be equal, and even superior, to the capabilities of currently available adaptive optics (AO) systems, particularly at short near-infrared to optical wavelengths. It outperforms lucky imaging because it makes use of the entire PSF and reduces the need for frame selection, thus, leading to higher Strehl and improved sensitivity. Image reconstruction a posteriori, the possibility to use multiple reference stars and the fact that these reference stars can be rather faint means that holographic imaging offers a simple way to image large, dense stellar fields near the diffraction limit of large telescopes, similar to, but much less technologically demanding than, the capabilities of a multiconjugate AO system. The method can be used with a large range of already existing imaging instruments and can also be combined with AO imaging when the corrected PSF is unstable. © 2012 The Authors. Published by Oxford University Press on behalf of the Royal Astronomical Society.

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