High-Contrast Imaging at First-Light of the GMT: The Preliminary Design of GMagAO-X

Jared R. Males; Laird M. Close; Sebastiaan Y. Haffert; Maggie Y. Kautz; Doug Kelly; Adam Fletcher; Thomas Salanski; Olivier Durney; Jamison Noenickx; John Ford; Victor Gasho; Logan Pearce; Jay Kueny; Olivier Guyon; Alycia Weinberger; Brendan Bowler; Adam Kraus; Natasha Batalha

doi:10.1117/12.3018157

High-Contrast Imaging at First-Light of the GMT: The Preliminary Design of GMagAO-X

Jared R. Males, Laird M. Close, Sebastiaan Y. Haffert, Maggie Y. Kautz, Doug Kelly, Adam Fletcher, Thomas Salanski, Olivier Durney, Jamison Noenickx, John Ford, Victor Gasho, Logan Pearce, Jay Kueny, Olivier Guyon, Alycia Weinberger, Brendan Bowler, Adam Kraus, Natasha Batalha

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

1 Scopus citations

Abstract

We present the preliminary design of GMagAO-X, the first-light high-contrast imager planned for the Giant Magellan Telescope. GMagAO-X will realize the revolutionary increase in spatial resolution and sensitivity provided by the 25 m GMT. It will enable, for the first time, the spectroscopic characterization of nearby potentially habitable terrestrial exoplanets orbiting late-type stars. Additional science cases include: reflected light characterization of mature giant planets; measurement of young extrasolar giant planet variability; characterization of circumstellar disks at unprecedented spatial resolution; characterization of benchmark stellar atmospheres at high spectral resolution; and mapping of resolved objects such as giant stars and asteroids. These, and many more, science cases will be enabled by a 21,000 actuator extreme adaptive optics system, a coronagraphic wavefront control system, and a suite of imagers and spectrographs. We will review the science-driven performance requirements for GMagAO-X, which include achieving a Strehl ratio of 70% at 800 nm on 8th mag and brighter stars, and post-processed characterization at astrophysical flux-ratios of 1e-7 at 4 lambda/D (26 mas at 800 nm) separation. We will provide an overview of the resulting mechanical, optical, and software designs optimized to deliver this performance. We will also discuss the interfaces to the GMT itself, and the concept of operations. We will present an overview of our end-to-end performance modeling and simulations, including the control of segment phasing, as well as an overview of prototype lab demonstrations. Finally, we will review the results of Preliminary Design Review held in February, 2024.

Original language	English (US)
Title of host publication	Ground-Based and Airborne Instrumentation for Astronomy X
Editors	Julia J. Bryant, Kentaro Motohara, Joel R. Vernet
Publisher	SPIE
ISBN (Electronic)	9781510675155
DOIs	https://doi.org/10.1117/12.3018157
State	Published - 2024
Event	Ground-Based and Airborne Instrumentation for Astronomy X 2024 - Yokohama, Japan Duration: Jun 16 2024 → Jun 21 2024

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	13096
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	Ground-Based and Airborne Instrumentation for Astronomy X 2024
Country/Territory	Japan
City	Yokohama
Period	6/16/24 → 6/21/24

Keywords

adaptive optics

ASJC Scopus subject areas

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

Access to Document

10.1117/12.3018157

Cite this

Males, J. R., Close, L. M., Haffert, S. Y., Kautz, M. Y., Kelly, D., Fletcher, A., Salanski, T., Durney, O., Noenickx, J., Ford, J., Gasho, V., Pearce, L., Kueny, J., Guyon, O., Weinberger, A., Bowler, B., Kraus, A., & Batalha, N. (2024). High-Contrast Imaging at First-Light of the GMT: The Preliminary Design of GMagAO-X. In J. J. Bryant, K. Motohara, & J. R. Vernet (Eds.), Ground-Based and Airborne Instrumentation for Astronomy X Article 130960Y (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 13096). SPIE. https://doi.org/10.1117/12.3018157

High-Contrast Imaging at First-Light of the GMT: The Preliminary Design of GMagAO-X. / Males, Jared R.; Close, Laird M.; Haffert, Sebastiaan Y. et al.
Ground-Based and Airborne Instrumentation for Astronomy X. ed. / Julia J. Bryant; Kentaro Motohara; Joel R. Vernet. SPIE, 2024. 130960Y (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 13096).

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

Males, JR, Close, LM, Haffert, SY, Kautz, MY, Kelly, D, Fletcher, A, Salanski, T, Durney, O, Noenickx, J, Ford, J, Gasho, V, Pearce, L, Kueny, J, Guyon, O, Weinberger, A, Bowler, B, Kraus, A & Batalha, N 2024, High-Contrast Imaging at First-Light of the GMT: The Preliminary Design of GMagAO-X. in JJ Bryant, K Motohara & JR Vernet (eds), Ground-Based and Airborne Instrumentation for Astronomy X., 130960Y, Proceedings of SPIE - The International Society for Optical Engineering, vol. 13096, SPIE, Ground-Based and Airborne Instrumentation for Astronomy X 2024, Yokohama, Japan, 6/16/24. https://doi.org/10.1117/12.3018157

Males JR, Close LM, Haffert SY, Kautz MY, Kelly D, Fletcher A et al. High-Contrast Imaging at First-Light of the GMT: The Preliminary Design of GMagAO-X. In Bryant JJ, Motohara K, Vernet JR, editors, Ground-Based and Airborne Instrumentation for Astronomy X. SPIE. 2024. 130960Y. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.3018157

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title = "High-Contrast Imaging at First-Light of the GMT: The Preliminary Design of GMagAO-X",

abstract = "We present the preliminary design of GMagAO-X, the first-light high-contrast imager planned for the Giant Magellan Telescope. GMagAO-X will realize the revolutionary increase in spatial resolution and sensitivity provided by the 25 m GMT. It will enable, for the first time, the spectroscopic characterization of nearby potentially habitable terrestrial exoplanets orbiting late-type stars. Additional science cases include: reflected light characterization of mature giant planets; measurement of young extrasolar giant planet variability; characterization of circumstellar disks at unprecedented spatial resolution; characterization of benchmark stellar atmospheres at high spectral resolution; and mapping of resolved objects such as giant stars and asteroids. These, and many more, science cases will be enabled by a 21,000 actuator extreme adaptive optics system, a coronagraphic wavefront control system, and a suite of imagers and spectrographs. We will review the science-driven performance requirements for GMagAO-X, which include achieving a Strehl ratio of 70% at 800 nm on 8th mag and brighter stars, and post-processed characterization at astrophysical flux-ratios of 1e-7 at 4 lambda/D (26 mas at 800 nm) separation. We will provide an overview of the resulting mechanical, optical, and software designs optimized to deliver this performance. We will also discuss the interfaces to the GMT itself, and the concept of operations. We will present an overview of our end-to-end performance modeling and simulations, including the control of segment phasing, as well as an overview of prototype lab demonstrations. Finally, we will review the results of Preliminary Design Review held in February, 2024.",

keywords = "adaptive optics",

author = "Males, {Jared R.} and Close, {Laird M.} and Haffert, {Sebastiaan Y.} and Kautz, {Maggie Y.} and Doug Kelly and Adam Fletcher and Thomas Salanski and Olivier Durney and Jamison Noenickx and John Ford and Victor Gasho and Logan Pearce and Jay Kueny and Olivier Guyon and Alycia Weinberger and Brendan Bowler and Adam Kraus and Natasha Batalha",

note = "Publisher Copyright: {\textcopyright} 2024 SPIE.; Ground-Based and Airborne Instrumentation for Astronomy X 2024 ; Conference date: 16-06-2024 Through 21-06-2024",

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doi = "10.1117/12.3018157",

language = "English (US)",

series = "Proceedings of SPIE - The International Society for Optical Engineering",

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AU - Kautz, Maggie Y.

AU - Kelly, Doug

AU - Fletcher, Adam

AU - Salanski, Thomas

AU - Durney, Olivier

AU - Noenickx, Jamison

AU - Ford, John

AU - Gasho, Victor

AU - Pearce, Logan

AU - Kueny, Jay

AU - Guyon, Olivier

AU - Weinberger, Alycia

AU - Bowler, Brendan

AU - Kraus, Adam

AU - Batalha, Natasha

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N2 - We present the preliminary design of GMagAO-X, the first-light high-contrast imager planned for the Giant Magellan Telescope. GMagAO-X will realize the revolutionary increase in spatial resolution and sensitivity provided by the 25 m GMT. It will enable, for the first time, the spectroscopic characterization of nearby potentially habitable terrestrial exoplanets orbiting late-type stars. Additional science cases include: reflected light characterization of mature giant planets; measurement of young extrasolar giant planet variability; characterization of circumstellar disks at unprecedented spatial resolution; characterization of benchmark stellar atmospheres at high spectral resolution; and mapping of resolved objects such as giant stars and asteroids. These, and many more, science cases will be enabled by a 21,000 actuator extreme adaptive optics system, a coronagraphic wavefront control system, and a suite of imagers and spectrographs. We will review the science-driven performance requirements for GMagAO-X, which include achieving a Strehl ratio of 70% at 800 nm on 8th mag and brighter stars, and post-processed characterization at astrophysical flux-ratios of 1e-7 at 4 lambda/D (26 mas at 800 nm) separation. We will provide an overview of the resulting mechanical, optical, and software designs optimized to deliver this performance. We will also discuss the interfaces to the GMT itself, and the concept of operations. We will present an overview of our end-to-end performance modeling and simulations, including the control of segment phasing, as well as an overview of prototype lab demonstrations. Finally, we will review the results of Preliminary Design Review held in February, 2024.

AB - We present the preliminary design of GMagAO-X, the first-light high-contrast imager planned for the Giant Magellan Telescope. GMagAO-X will realize the revolutionary increase in spatial resolution and sensitivity provided by the 25 m GMT. It will enable, for the first time, the spectroscopic characterization of nearby potentially habitable terrestrial exoplanets orbiting late-type stars. Additional science cases include: reflected light characterization of mature giant planets; measurement of young extrasolar giant planet variability; characterization of circumstellar disks at unprecedented spatial resolution; characterization of benchmark stellar atmospheres at high spectral resolution; and mapping of resolved objects such as giant stars and asteroids. These, and many more, science cases will be enabled by a 21,000 actuator extreme adaptive optics system, a coronagraphic wavefront control system, and a suite of imagers and spectrographs. We will review the science-driven performance requirements for GMagAO-X, which include achieving a Strehl ratio of 70% at 800 nm on 8th mag and brighter stars, and post-processed characterization at astrophysical flux-ratios of 1e-7 at 4 lambda/D (26 mas at 800 nm) separation. We will provide an overview of the resulting mechanical, optical, and software designs optimized to deliver this performance. We will also discuss the interfaces to the GMT itself, and the concept of operations. We will present an overview of our end-to-end performance modeling and simulations, including the control of segment phasing, as well as an overview of prototype lab demonstrations. Finally, we will review the results of Preliminary Design Review held in February, 2024.

KW - adaptive optics

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T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Ground-Based and Airborne Instrumentation for Astronomy X

A2 - Bryant, Julia J.

A2 - Motohara, Kentaro

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PB - SPIE

Y2 - 16 June 2024 through 21 June 2024

ER -

High-Contrast Imaging at First-Light of the GMT: The Preliminary Design of GMagAO-X

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