Review of high-contrast imaging systems for current and future ground-based and space-based telescopes III. Technology opportunities and pathways

Frans Snik; Olivier Absil; Pierre Baudoz; Mathilde Beaulieu; Eduardo Bendek; Eric Cady; Brunella Carlomagno; Alexis Carlotti; Nick Cvetojevic; David Doelman; Kevin Fogarty; Raphaël Galicher; Olivier Guyon; Sebastiaan Haffert; Elsa Huby; Jeffrey Jewell; Nemanja Jovanovic; Christoph Keller; Matthew A. Kenworthy; Justin Knight; Jonas Kühn; Johan Mazoyer; Kelsey Miller; Mamadou N'Diaye; Barnaby Norris; Emiel Por; Laurent Pueyo; A. J. Eldorado Riggs; Garreth Ruane; Dan Sirbu; J. Kent Wallace; Michael Wilby; Marie Ygouf

Review of high-contrast imaging systems for current and future ground-based and space-based telescopes III. Technology opportunities and pathways

Frans Snik, Olivier Absil, Pierre Baudoz, Mathilde Beaulieu, Eduardo Bendek, Eric Cady, Brunella Carlomagno, Alexis Carlotti, Nick Cvetojevic, David Doelman, Kevin Fogarty, Raphaël Galicher, Olivier Guyon, Sebastiaan Haffert, Elsa Huby, Jeffrey Jewell, Nemanja Jovanovic, Christoph Keller, Matthew A. Kenworthy, Justin KnightJonas Kühn, Johan Mazoyer, Kelsey Miller, Mamadou N'Diaye, Barnaby Norris, Emiel Por, Laurent Pueyo, A. J. Eldorado Riggs, Garreth Ruane, Dan Sirbu, J. Kent Wallace, Michael Wilby, Marie Ygouf

Steward Observatory

Research output: Contribution to journal › Article › peer-review

Abstract

The Optimal Optical Coronagraph Workshop at the Lorentz Center in September 2017 in Leiden, the Netherlands gathered a diverse group of 25 researchers working on exoplanet instrumentation to stimulate the emergence and sharing of new ideas. This contribution is the final part of a series of three papers summarizing the outcomes of the workshop, and presents an overview of novel optical technologies and systems that are implemented or considered for high-contrast imaging instruments on both ground-based and space telescopes. The overall objective of high contrast instruments is to provide direct observations and characterizations of exoplanets at contrast levels as extreme as 10⁻¹⁰. We list shortcomings of current technologies, and identify opportunities and development paths for new technologies that enable quantum leaps in performance. Specifically, we discuss the design and manufacturing of key components like advanced deformable mirrors and coronagraphic optics, and their amalgamation in “adaptive coronagraph” systems. Moreover, we discuss highly integrated system designs that combine contrast-enhancing techniques and characterization techniques (like high-resolution spectroscopy) while minimizing the overall complexity. Finally, we explore extreme implementations using all-photonics solutions for ground-based telescopes and dedicated huge apertures for space telescopes.

Original language	English (US)
Journal	Unknown Journal
State	Published - Jul 18 2018

Keywords

Exoplanets
High contrast imaging
Technology

ASJC Scopus subject areas

General

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Snik, F., Absil, O., Baudoz, P., Beaulieu, M., Bendek, E., Cady, E., Carlomagno, B., Carlotti, A., Cvetojevic, N., Doelman, D., Fogarty, K., Galicher, R., Guyon, O., Haffert, S., Huby, E., Jewell, J., Jovanovic, N., Keller, C., Kenworthy, M. A., ... Ygouf, M. (2018). Review of high-contrast imaging systems for current and future ground-based and space-based telescopes III. Technology opportunities and pathways. Unknown Journal.

Review of high-contrast imaging systems for current and future ground-based and space-based telescopes III. Technology opportunities and pathways. / Snik, Frans; Absil, Olivier; Baudoz, Pierre; Beaulieu, Mathilde; Bendek, Eduardo; Cady, Eric; Carlomagno, Brunella; Carlotti, Alexis; Cvetojevic, Nick; Doelman, David; Fogarty, Kevin; Galicher, Raphaël; Guyon, Olivier; Haffert, Sebastiaan; Huby, Elsa; Jewell, Jeffrey; Jovanovic, Nemanja; Keller, Christoph; Kenworthy, Matthew A.; Knight, Justin; Kühn, Jonas; Mazoyer, Johan; Miller, Kelsey; N'Diaye, Mamadou; Norris, Barnaby; Por, Emiel; Pueyo, Laurent; Eldorado Riggs, A. J.; Ruane, Garreth; Sirbu, Dan; Kent Wallace, J.; Wilby, Michael; Ygouf, Marie.

In: Unknown Journal, 18.07.2018.

Research output: Contribution to journal › Article › peer-review

Snik, F, Absil, O, Baudoz, P, Beaulieu, M, Bendek, E, Cady, E, Carlomagno, B, Carlotti, A, Cvetojevic, N, Doelman, D, Fogarty, K, Galicher, R, Guyon, O, Haffert, S, Huby, E, Jewell, J, Jovanovic, N, Keller, C, Kenworthy, MA, Knight, J, Kühn, J, Mazoyer, J, Miller, K, N'Diaye, M, Norris, B, Por, E, Pueyo, L, Eldorado Riggs, AJ, Ruane, G, Sirbu, D, Kent Wallace, J, Wilby, M & Ygouf, M 2018, 'Review of high-contrast imaging systems for current and future ground-based and space-based telescopes III. Technology opportunities and pathways', Unknown Journal.

Snik, Frans ; Absil, Olivier ; Baudoz, Pierre ; Beaulieu, Mathilde ; Bendek, Eduardo ; Cady, Eric ; Carlomagno, Brunella ; Carlotti, Alexis ; Cvetojevic, Nick ; Doelman, David ; Fogarty, Kevin ; Galicher, Raphaël ; Guyon, Olivier ; Haffert, Sebastiaan ; Huby, Elsa ; Jewell, Jeffrey ; Jovanovic, Nemanja ; Keller, Christoph ; Kenworthy, Matthew A. ; Knight, Justin ; Kühn, Jonas ; Mazoyer, Johan ; Miller, Kelsey ; N'Diaye, Mamadou ; Norris, Barnaby ; Por, Emiel ; Pueyo, Laurent ; Eldorado Riggs, A. J. ; Ruane, Garreth ; Sirbu, Dan ; Kent Wallace, J. ; Wilby, Michael ; Ygouf, Marie. / Review of high-contrast imaging systems for current and future ground-based and space-based telescopes III. Technology opportunities and pathways. In: Unknown Journal. 2018.

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abstract = "The Optimal Optical Coronagraph Workshop at the Lorentz Center in September 2017 in Leiden, the Netherlands gathered a diverse group of 25 researchers working on exoplanet instrumentation to stimulate the emergence and sharing of new ideas. This contribution is the final part of a series of three papers summarizing the outcomes of the workshop, and presents an overview of novel optical technologies and systems that are implemented or considered for high-contrast imaging instruments on both ground-based and space telescopes. The overall objective of high contrast instruments is to provide direct observations and characterizations of exoplanets at contrast levels as extreme as 10−10. We list shortcomings of current technologies, and identify opportunities and development paths for new technologies that enable quantum leaps in performance. Specifically, we discuss the design and manufacturing of key components like advanced deformable mirrors and coronagraphic optics, and their amalgamation in “adaptive coronagraph” systems. Moreover, we discuss highly integrated system designs that combine contrast-enhancing techniques and characterization techniques (like high-resolution spectroscopy) while minimizing the overall complexity. Finally, we explore extreme implementations using all-photonics solutions for ground-based telescopes and dedicated huge apertures for space telescopes.",

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AU - Snik, Frans

AU - Absil, Olivier

AU - Baudoz, Pierre

AU - Beaulieu, Mathilde

AU - Bendek, Eduardo

AU - Cady, Eric

AU - Carlomagno, Brunella

AU - Carlotti, Alexis

AU - Cvetojevic, Nick

AU - Doelman, David

AU - Fogarty, Kevin

AU - Galicher, Raphaël

AU - Guyon, Olivier

AU - Haffert, Sebastiaan

AU - Huby, Elsa

AU - Jewell, Jeffrey

AU - Jovanovic, Nemanja

AU - Keller, Christoph

AU - Kenworthy, Matthew A.

AU - Knight, Justin

AU - Kühn, Jonas

AU - Mazoyer, Johan

AU - Miller, Kelsey

AU - N'Diaye, Mamadou

AU - Norris, Barnaby

AU - Por, Emiel

AU - Pueyo, Laurent

AU - Eldorado Riggs, A. J.

AU - Ruane, Garreth

AU - Sirbu, Dan

AU - Kent Wallace, J.

AU - Wilby, Michael

AU - Ygouf, Marie

PY - 2018/7/18

Y1 - 2018/7/18

N2 - The Optimal Optical Coronagraph Workshop at the Lorentz Center in September 2017 in Leiden, the Netherlands gathered a diverse group of 25 researchers working on exoplanet instrumentation to stimulate the emergence and sharing of new ideas. This contribution is the final part of a series of three papers summarizing the outcomes of the workshop, and presents an overview of novel optical technologies and systems that are implemented or considered for high-contrast imaging instruments on both ground-based and space telescopes. The overall objective of high contrast instruments is to provide direct observations and characterizations of exoplanets at contrast levels as extreme as 10−10. We list shortcomings of current technologies, and identify opportunities and development paths for new technologies that enable quantum leaps in performance. Specifically, we discuss the design and manufacturing of key components like advanced deformable mirrors and coronagraphic optics, and their amalgamation in “adaptive coronagraph” systems. Moreover, we discuss highly integrated system designs that combine contrast-enhancing techniques and characterization techniques (like high-resolution spectroscopy) while minimizing the overall complexity. Finally, we explore extreme implementations using all-photonics solutions for ground-based telescopes and dedicated huge apertures for space telescopes.

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