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Vector-apodizing phase plate coronagraph: design, current performance, and future development [Invited].

Publication ,  Journal Article
Doelman, DS; Snik, F; Por, EH; Bos, SP; Otten, GPPL; Kenworthy, M; Haffert, SY; Wilby, M; Bohn, AJ; Sutlieff, BJ; Miller, K; Ouellet, M ...
Published in: Applied optics
July 2021

Over the last decade, the vector-apodizing phase plate (vAPP) coronagraph has been developed from concept to on-sky application in many high-contrast imaging systems on 8 m class telescopes. The vAPP is a geometric-phase patterned coronagraph that is inherently broadband, and its manufacturing is enabled only by direct-write technology for liquid-crystal patterns. The vAPP generates two coronagraphic point spread functions (PSFs) that cancel starlight on opposite sides of the PSF and have opposite circular polarization states. The efficiency, that is, the amount of light in these PSFs, depends on the retardance offset from a half-wave of the liquid-crystal retarder. Using different liquid-crystal recipes to tune the retardance, different vAPPs operate with high efficiencies (${\gt}96\%$) in the visible and thermal infrared (0.55 µm to 5 µm). Since 2015, seven vAPPs have been installed in a total of six different instruments, including Magellan/MagAO, Magellan/MagAO-X, Subaru/SCExAO, and LBT/LMIRcam. Using two integral field spectrographs installed on the latter two instruments, these vAPPs can provide low-resolution spectra (${\rm{R}} \sim 30$) between 1 µm and 5 µm. We review the design process, development, commissioning, on-sky performance, and first scientific results of all commissioned vAPPs. We report on the lessons learned and conclude with perspectives for future developments and applications.

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Published In

Applied optics

DOI

EISSN

1539-4522

ISSN

1559-128X

Publication Date

July 2021

Volume

60

Issue

19

Start / End Page

D52 / D72

Related Subject Headings

  • Optics
  • 5102 Atomic, molecular and optical physics
  • 4008 Electrical engineering
  • 0913 Mechanical Engineering
  • 0906 Electrical and Electronic Engineering
  • 0205 Optical Physics
 

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Doelman, D. S., Snik, F., Por, E. H., Bos, S. P., Otten, G. P. P. L., Kenworthy, M., … Delacroix, C. (2021). Vector-apodizing phase plate coronagraph: design, current performance, and future development [Invited]. Applied Optics, 60(19), D52–D72. https://doi.org/10.1364/ao.422155
Doelman, D. S., F. Snik, E. H. Por, S. P. Bos, G. P. P. L. Otten, M. Kenworthy, S. Y. Haffert, et al. “Vector-apodizing phase plate coronagraph: design, current performance, and future development [Invited].Applied Optics 60, no. 19 (July 2021): D52–72. https://doi.org/10.1364/ao.422155.
Doelman DS, Snik F, Por EH, Bos SP, Otten GPPL, Kenworthy M, et al. Vector-apodizing phase plate coronagraph: design, current performance, and future development [Invited]. Applied optics. 2021 Jul;60(19):D52–72.
Doelman, D. S., et al. “Vector-apodizing phase plate coronagraph: design, current performance, and future development [Invited].Applied Optics, vol. 60, no. 19, July 2021, pp. D52–72. Epmc, doi:10.1364/ao.422155.
Doelman DS, Snik F, Por EH, Bos SP, Otten GPPL, Kenworthy M, Haffert SY, Wilby M, Bohn AJ, Sutlieff BJ, Miller K, Ouellet M, de Boer J, Keller CU, Escuti MJ, Shi S, Warriner NZ, Hornburg K, Birkby JL, Males J, Morzinski KM, Close LM, Codona J, Long J, Schatz L, Lumbres J, Rodack A, Van Gorkom K, Hedglen A, Guyon O, Lozi J, Groff T, Chilcote J, Jovanovic N, Thibault S, de Jonge C, Allain G, Vallée C, Patel D, Côté O, Marois C, Hinz P, Stone J, Skemer A, Briesemeister Z, Boehle A, Glauser AM, Taylor W, Baudoz P, Huby E, Absil O, Carlomagno B, Delacroix C. Vector-apodizing phase plate coronagraph: design, current performance, and future development [Invited]. Applied optics. 2021 Jul;60(19):D52–D72.

Published In

Applied optics

DOI

EISSN

1539-4522

ISSN

1559-128X

Publication Date

July 2021

Volume

60

Issue

19

Start / End Page

D52 / D72

Related Subject Headings

  • Optics
  • 5102 Atomic, molecular and optical physics
  • 4008 Electrical engineering
  • 0913 Mechanical Engineering
  • 0906 Electrical and Electronic Engineering
  • 0205 Optical Physics