English

Ground-Based Coronagraphy with High Order Adaptive Optics

Astrophysics 2009-11-06 v1

Abstract

We summarize the theory of coronagraphic optics, and identify a dimensionless fine-tuning parameter, F, which we use to describe the Lyot stop size in the natural units of the coronagraphic optical train and the observing wavelength. We then present simulations of coronagraphs matched to adaptive optics (AO) systems on the Calypso 1.2m, Palomar Hale 5m and Gemini 8m telescopes under various atmospheric conditions, and identify useful parameter ranges for AO coronagraphy on these telescopes. Our simulations employ a tapered, high-pass filter in spatial frequency space to mimic the action of adaptive wavefront correction. We test the validity of this representation of AO correction by comparing our simulations with recent K-band data from the 241-channel Palomar Hale AO system and its dedicated PHARO science camera in coronagraphic mode.

Keywords

Cite

@article{arxiv.astro-ph/0103012,
  title  = {Ground-Based Coronagraphy with High Order Adaptive Optics},
  author = {A. Sivaramakrishnan and C. D. Koresko and R. B. Makidon and T. Berkefeld and M. J. Kuchner},
  journal= {arXiv preprint arXiv:astro-ph/0103012},
  year   = {2009}
}

Comments

To appear in ApJ, May 2001 (28 pages, 10 figs)