RISTRETTO: a VLT XAO design to reach Proxima Cen b in the visible

N. Blind; M. Shinde; I. Dinis; N. Restori; B. Chazelas; T. Fusco; O. Guyon; J. Kühn; C. Lovis; P. Martinez; M. Motte; J. F. Sauvage; A. Spang

doi:10.1117/12.3019992

RISTRETTO: a VLT XAO design to reach Proxima Cen b in the visible

N. Blind, M. Shinde, I. Dinis, N. Restori, B. Chazelas, T. Fusco, O. Guyon, J. Kühn, C. Lovis, P. Martinez, M. Motte, J. F. Sauvage, A. Spang

Optical Sciences

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

RISTRETTO is the evolution of the original idea of coupling the VLT instruments SPHERE and ESPRESSO,¹ aiming at High Dispersion Coronagraphy. RISTRETTO is a visitor instrument that should enable the characterization of the atmospheres of nearby exoplanets in reflected light, by using the technique of high-contrast, high-resolution spectroscopy. Its goal is to observe Prox Cen b and other planets placed at about 35mas from their star, i.e. 2λ/D at λ=750nm. The instrument is composed of an extreme adaptive optics, a coronagraphic Integral Field Unit, and a diffraction-limited spectrograph (R=140.000, λ =620-840 nm). We present the RISTRETTO XAO architecture that reach the specification, providing contrasts down to 5 × 10⁻⁵ at 2λ/D from the star in the visible, in the presence of atmosphere and low wind effect. This performance is allowed by a new two-sensors-one-dm architecture, some variations to the already known concepts of unmodulated pyWFS and zWFS, and exploiting to the maximum of their capabilities the state-of-the-art high speed, low noise cameras & fast DM. We present the result of end-to-end simulations, that demonstrate stable closed loop operation of an unmodulated pyramid and a zernike WFS (together), and in presence of low wind effect.

Original language	English (US)
Title of host publication	Adaptive Optics Systems IX
Editors	Kathryn J. Jackson, Dirk Schmidt, Elise Vernet
Publisher	SPIE
ISBN (Electronic)	9781510675179
DOIs	https://doi.org/10.1117/12.3019992
State	Published - 2024
Event	Adaptive Optics Systems IX 2024 - Yokohama, Japan Duration: Jun 16 2024 → Jun 22 2024

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	13097
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	Adaptive Optics Systems IX 2024
Country/Territory	Japan
City	Yokohama
Period	6/16/24 → 6/22/24

Keywords

HDC
nulling
PIAA
XAO

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Computer Science Applications
Applied Mathematics
Electrical and Electronic Engineering

Access to Document

10.1117/12.3019992

Cite this

Blind, N., Shinde, M., Dinis, I., Restori, N., Chazelas, B., Fusco, T., Guyon, O., Kühn, J., Lovis, C., Martinez, P., Motte, M., Sauvage, J. F., & Spang, A. (2024). RISTRETTO: a VLT XAO design to reach Proxima Cen b in the visible. In K. J. Jackson, D. Schmidt, & E. Vernet (Eds.), Adaptive Optics Systems IX Article 130976U (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 13097). SPIE. https://doi.org/10.1117/12.3019992

RISTRETTO: a VLT XAO design to reach Proxima Cen b in the visible. / Blind, N.; Shinde, M.; Dinis, I. et al.
Adaptive Optics Systems IX. ed. / Kathryn J. Jackson; Dirk Schmidt; Elise Vernet. SPIE, 2024. 130976U (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 13097).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Blind, N, Shinde, M, Dinis, I, Restori, N, Chazelas, B, Fusco, T, Guyon, O, Kühn, J, Lovis, C, Martinez, P, Motte, M, Sauvage, JF & Spang, A 2024, RISTRETTO: a VLT XAO design to reach Proxima Cen b in the visible. in KJ Jackson, D Schmidt & E Vernet (eds), Adaptive Optics Systems IX., 130976U, Proceedings of SPIE - The International Society for Optical Engineering, vol. 13097, SPIE, Adaptive Optics Systems IX 2024, Yokohama, Japan, 6/16/24. https://doi.org/10.1117/12.3019992

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abstract = "RISTRETTO is the evolution of the original idea of coupling the VLT instruments SPHERE and ESPRESSO,1 aiming at High Dispersion Coronagraphy. RISTRETTO is a visitor instrument that should enable the characterization of the atmospheres of nearby exoplanets in reflected light, by using the technique of high-contrast, high-resolution spectroscopy. Its goal is to observe Prox Cen b and other planets placed at about 35mas from their star, i.e. 2λ/D at λ=750nm. The instrument is composed of an extreme adaptive optics, a coronagraphic Integral Field Unit, and a diffraction-limited spectrograph (R=140.000, λ =620-840 nm). We present the RISTRETTO XAO architecture that reach the specification, providing contrasts down to 5 × 10−5 at 2λ/D from the star in the visible, in the presence of atmosphere and low wind effect. This performance is allowed by a new two-sensors-one-dm architecture, some variations to the already known concepts of unmodulated pyWFS and zWFS, and exploiting to the maximum of their capabilities the state-of-the-art high speed, low noise cameras & fast DM. We present the result of end-to-end simulations, that demonstrate stable closed loop operation of an unmodulated pyramid and a zernike WFS (together), and in presence of low wind effect.",

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AU - Blind, N.

AU - Shinde, M.

AU - Dinis, I.

AU - Restori, N.

AU - Chazelas, B.

AU - Fusco, T.

AU - Guyon, O.

AU - Kühn, J.

AU - Lovis, C.

AU - Martinez, P.

AU - Motte, M.

AU - Sauvage, J. F.

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N2 - RISTRETTO is the evolution of the original idea of coupling the VLT instruments SPHERE and ESPRESSO,1 aiming at High Dispersion Coronagraphy. RISTRETTO is a visitor instrument that should enable the characterization of the atmospheres of nearby exoplanets in reflected light, by using the technique of high-contrast, high-resolution spectroscopy. Its goal is to observe Prox Cen b and other planets placed at about 35mas from their star, i.e. 2λ/D at λ=750nm. The instrument is composed of an extreme adaptive optics, a coronagraphic Integral Field Unit, and a diffraction-limited spectrograph (R=140.000, λ =620-840 nm). We present the RISTRETTO XAO architecture that reach the specification, providing contrasts down to 5 × 10−5 at 2λ/D from the star in the visible, in the presence of atmosphere and low wind effect. This performance is allowed by a new two-sensors-one-dm architecture, some variations to the already known concepts of unmodulated pyWFS and zWFS, and exploiting to the maximum of their capabilities the state-of-the-art high speed, low noise cameras & fast DM. We present the result of end-to-end simulations, that demonstrate stable closed loop operation of an unmodulated pyramid and a zernike WFS (together), and in presence of low wind effect.

AB - RISTRETTO is the evolution of the original idea of coupling the VLT instruments SPHERE and ESPRESSO,1 aiming at High Dispersion Coronagraphy. RISTRETTO is a visitor instrument that should enable the characterization of the atmospheres of nearby exoplanets in reflected light, by using the technique of high-contrast, high-resolution spectroscopy. Its goal is to observe Prox Cen b and other planets placed at about 35mas from their star, i.e. 2λ/D at λ=750nm. The instrument is composed of an extreme adaptive optics, a coronagraphic Integral Field Unit, and a diffraction-limited spectrograph (R=140.000, λ =620-840 nm). We present the RISTRETTO XAO architecture that reach the specification, providing contrasts down to 5 × 10−5 at 2λ/D from the star in the visible, in the presence of atmosphere and low wind effect. This performance is allowed by a new two-sensors-one-dm architecture, some variations to the already known concepts of unmodulated pyWFS and zWFS, and exploiting to the maximum of their capabilities the state-of-the-art high speed, low noise cameras & fast DM. We present the result of end-to-end simulations, that demonstrate stable closed loop operation of an unmodulated pyramid and a zernike WFS (together), and in presence of low wind effect.

KW - HDC

KW - nulling

KW - PIAA

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PB - SPIE

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ER -

RISTRETTO: a VLT XAO design to reach Proxima Cen b in the visible

Abstract

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Keywords

ASJC Scopus subject areas

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