The Laser Guide Star System for the Giant Magellan Telescope Laser Tomography Adaptive Optics

Noelia Martinez Rey; Joschua Hellemeier; Hana Benhizia; Mark Blundell; David Chandler; Jesse Cranney; Angela Hernandez Delgado; Grace McGinness; Hajime Ogane; Rachael Rheinberger; Tony Travouillon; Israel Vaughn; Richard Demers; Antonin Bouchez; Marcos Van Dam; Celine D’Orgeville

doi:10.1117/12.3019822

The Laser Guide Star System for the Giant Magellan Telescope Laser Tomography Adaptive Optics

Noelia Martinez Rey, Joschua Hellemeier, Hana Benhizia, Mark Blundell, David Chandler, Jesse Cranney, Angela Hernandez Delgado, Grace McGinness, Hajime Ogane, Rachael Rheinberger, Tony Travouillon, Israel Vaughn, Richard Demers, Antonin Bouchez, Marcos Van Dam, Celine D’Orgeville

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

1 Citation (Scopus)

Abstract

The Laser Tomography Adaptive Optics (LTAO) system for the Giant Magellan Telescope (GMT) will be the first laser guide star adaptive optics (LGS AO) wavefront control for the GMT, aimed at pushing the boundaries of astronomical observations beyond the limits of natural guide star (NGS) operations. The Australian National University is leading the design of some of the largest work packages in the GMT LTAO project, including the GMTIFS on-instrument wavefront sensor, LTAO LGS wavefront sensors, and the Laser Guide Star System (LGSS). Central to the LTAO system is the Laser Guide Star Subsystem (LGSS), responsible for creating a Laser Guide Star (LGS) asterism adjustable between 25-60 arcsec and centred on the science target. The LGSS comprises six Laser Guide Star Units (LGSU), each emitting a laser beam with precise spectro-temporal and spatial characteristics. The LGSU includes a Laser System, a Beam Conditioning and Diagnostic System (BCDS), a Laser Launch Telescope (LLT), and a LGS Unit Control System (LGSU CS). These components collectively ensure accurate pointing and focusing of the laser beam on the sky. This paper provides a comprehensive update on the re-assessment and redesign of the LGSS for the GMT, a collaborative effort reignited at the Australian National University after a ten-year hiatus in design work. The LGSS design is ready to re-attain the Preliminary Design level, after integrating interface changes that have evolved at the telescope since the Preliminary Design Review took place in 2013. In order to take advantage of advances made in the field over the past 10 years, the study investigates the feasibility of a shared launch for the GMT LTAO system and also re-evaluates the number of lasers required to generate the 6 LGS asterism.

Original language	English
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/10.1117/12.3019822
Publication status	Published - Aug 2024
Event	Adaptive Optics Systems IX 2024 - Yokohama, Japan Duration: 16 Jun 2024 → 22 Jun 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	16/06/24 → 22/06/24

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10.1117/12.3019822

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Rey, N. M., Hellemeier, J., Benhizia, H., Blundell, M., Chandler, D., Cranney, J., Delgado, A. H., McGinness, G., Ogane, H., Rheinberger, R., Travouillon, T., Vaughn, I., Demers, R., Bouchez, A., Van Dam, M., & D’Orgeville, C. (2024). The Laser Guide Star System for the Giant Magellan Telescope Laser Tomography Adaptive Optics. In K. J. Jackson, D. Schmidt, & E. Vernet (Eds.), Adaptive Optics Systems IX Article 1309724 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 13097). SPIE. https://doi.org/10.1117/12.3019822

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title = "The Laser Guide Star System for the Giant Magellan Telescope Laser Tomography Adaptive Optics",

abstract = "The Laser Tomography Adaptive Optics (LTAO) system for the Giant Magellan Telescope (GMT) will be the first laser guide star adaptive optics (LGS AO) wavefront control for the GMT, aimed at pushing the boundaries of astronomical observations beyond the limits of natural guide star (NGS) operations. The Australian National University is leading the design of some of the largest work packages in the GMT LTAO project, including the GMTIFS on-instrument wavefront sensor, LTAO LGS wavefront sensors, and the Laser Guide Star System (LGSS). Central to the LTAO system is the Laser Guide Star Subsystem (LGSS), responsible for creating a Laser Guide Star (LGS) asterism adjustable between 25-60 arcsec and centred on the science target. The LGSS comprises six Laser Guide Star Units (LGSU), each emitting a laser beam with precise spectro-temporal and spatial characteristics. The LGSU includes a Laser System, a Beam Conditioning and Diagnostic System (BCDS), a Laser Launch Telescope (LLT), and a LGS Unit Control System (LGSU CS). These components collectively ensure accurate pointing and focusing of the laser beam on the sky. This paper provides a comprehensive update on the re-assessment and redesign of the LGSS for the GMT, a collaborative effort reignited at the Australian National University after a ten-year hiatus in design work. The LGSS design is ready to re-attain the Preliminary Design level, after integrating interface changes that have evolved at the telescope since the Preliminary Design Review took place in 2013. In order to take advantage of advances made in the field over the past 10 years, the study investigates the feasibility of a shared launch for the GMT LTAO system and also re-evaluates the number of lasers required to generate the 6 LGS asterism.",

keywords = "GMT, Laser Guide Star System, Laser Tomography Adaptive Optics",

author = "Rey, {Noelia Martinez} and Joschua Hellemeier and Hana Benhizia and Mark Blundell and David Chandler and Jesse Cranney and Delgado, {Angela Hernandez} and Grace McGinness and Hajime Ogane and Rachael Rheinberger and Tony Travouillon and Israel Vaughn and Richard Demers and Antonin Bouchez and {Van Dam}, Marcos and Celine D{\textquoteright}Orgeville",

note = "Publisher Copyright: {\textcopyright} 2024 SPIE.; Adaptive Optics Systems IX 2024 ; Conference date: 16-06-2024 Through 22-06-2024",

year = "2024",

month = aug,

doi = "10.1117/12.3019822",

language = "English",

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

publisher = "SPIE",

editor = "Jackson, {Kathryn J.} and Dirk Schmidt and Elise Vernet",

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Rey, NM , Hellemeier, J, Benhizia, H, Blundell, M, Chandler, D, Cranney, J, Delgado, AH, McGinness, G, Ogane, H, Rheinberger, R, Travouillon, T , Vaughn, I, Demers, R, Bouchez, A, Van Dam, M & D’Orgeville, C 2024, The Laser Guide Star System for the Giant Magellan Telescope Laser Tomography Adaptive Optics. in KJ Jackson, D Schmidt & E Vernet (eds), Adaptive Optics Systems IX., 1309724, Proceedings of SPIE - The International Society for Optical Engineering, vol. 13097, SPIE, Adaptive Optics Systems IX 2024, Yokohama, Japan, 16/06/24. https://doi.org/10.1117/12.3019822

The Laser Guide Star System for the Giant Magellan Telescope Laser Tomography Adaptive Optics. / Rey, Noelia Martinez ; Hellemeier, Joschua; Benhizia, Hana et al.
Adaptive Optics Systems IX. ed. / Kathryn J. Jackson; Dirk Schmidt; Elise Vernet. SPIE, 2024. 1309724 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 13097).

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

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AU - Cranney, Jesse

AU - Delgado, Angela Hernandez

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AU - Rheinberger, Rachael

AU - Travouillon, Tony

AU - Vaughn, Israel

AU - Demers, Richard

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N2 - The Laser Tomography Adaptive Optics (LTAO) system for the Giant Magellan Telescope (GMT) will be the first laser guide star adaptive optics (LGS AO) wavefront control for the GMT, aimed at pushing the boundaries of astronomical observations beyond the limits of natural guide star (NGS) operations. The Australian National University is leading the design of some of the largest work packages in the GMT LTAO project, including the GMTIFS on-instrument wavefront sensor, LTAO LGS wavefront sensors, and the Laser Guide Star System (LGSS). Central to the LTAO system is the Laser Guide Star Subsystem (LGSS), responsible for creating a Laser Guide Star (LGS) asterism adjustable between 25-60 arcsec and centred on the science target. The LGSS comprises six Laser Guide Star Units (LGSU), each emitting a laser beam with precise spectro-temporal and spatial characteristics. The LGSU includes a Laser System, a Beam Conditioning and Diagnostic System (BCDS), a Laser Launch Telescope (LLT), and a LGS Unit Control System (LGSU CS). These components collectively ensure accurate pointing and focusing of the laser beam on the sky. This paper provides a comprehensive update on the re-assessment and redesign of the LGSS for the GMT, a collaborative effort reignited at the Australian National University after a ten-year hiatus in design work. The LGSS design is ready to re-attain the Preliminary Design level, after integrating interface changes that have evolved at the telescope since the Preliminary Design Review took place in 2013. In order to take advantage of advances made in the field over the past 10 years, the study investigates the feasibility of a shared launch for the GMT LTAO system and also re-evaluates the number of lasers required to generate the 6 LGS asterism.

AB - The Laser Tomography Adaptive Optics (LTAO) system for the Giant Magellan Telescope (GMT) will be the first laser guide star adaptive optics (LGS AO) wavefront control for the GMT, aimed at pushing the boundaries of astronomical observations beyond the limits of natural guide star (NGS) operations. The Australian National University is leading the design of some of the largest work packages in the GMT LTAO project, including the GMTIFS on-instrument wavefront sensor, LTAO LGS wavefront sensors, and the Laser Guide Star System (LGSS). Central to the LTAO system is the Laser Guide Star Subsystem (LGSS), responsible for creating a Laser Guide Star (LGS) asterism adjustable between 25-60 arcsec and centred on the science target. The LGSS comprises six Laser Guide Star Units (LGSU), each emitting a laser beam with precise spectro-temporal and spatial characteristics. The LGSU includes a Laser System, a Beam Conditioning and Diagnostic System (BCDS), a Laser Launch Telescope (LLT), and a LGS Unit Control System (LGSU CS). These components collectively ensure accurate pointing and focusing of the laser beam on the sky. This paper provides a comprehensive update on the re-assessment and redesign of the LGSS for the GMT, a collaborative effort reignited at the Australian National University after a ten-year hiatus in design work. The LGSS design is ready to re-attain the Preliminary Design level, after integrating interface changes that have evolved at the telescope since the Preliminary Design Review took place in 2013. In order to take advantage of advances made in the field over the past 10 years, the study investigates the feasibility of a shared launch for the GMT LTAO system and also re-evaluates the number of lasers required to generate the 6 LGS asterism.

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A2 - Jackson, Kathryn J.

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PB - SPIE

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Y2 - 16 June 2024 through 22 June 2024

ER -

The Laser Guide Star System for the Giant Magellan Telescope Laser Tomography Adaptive Optics

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