The Simons Observatory: modeling optical systematics in the Large Aperture Telescope

Jon E. Gudmundsson; Patricio A. Gallardo; Roberto Puddu; Simon R. Dicker; Alexandre E. Adler; Aamir M. Ali; Andrew Bazarko; Grace E. Chesmore; Gabriele Coppi; Nicholas F. Cothard; Nadia Dachlythra; Mark Devlin; Rolando Dünner; Giulio Fabbian; Nicholas Galitzki; Joseph E. Golec; Shuay Pwu Patty Ho; Peter C. Hargrave; Anna M. Kofman; Adrian T. Lee; Michele Limon; Frederick T. Matsuda; Philip D. Mauskopf; Kavilan Moodley; Federico Nati; Michael D. Niemack; John Orlowski-Scherer; Lyman A. Page; Bruce Partridge; Giuseppe Puglisi; Christian L. Reichardt; Carlos E. Sierra; Sara M. Simon; Grant P. Teply; Carole Tucker; Edward J. Wollack; Zhilei Xu; Ningfeng Zhu

doi:10.1364/AO.411533

The Simons Observatory: modeling optical systematics in the Large Aperture Telescope

Jon E. Gudmundsson, Patricio A. Gallardo, Roberto Puddu, Simon R. Dicker, Alexandre E. Adler, Aamir M. Ali, Andrew Bazarko, Grace E. Chesmore, Gabriele Coppi, Nicholas F. Cothard, Nadia Dachlythra, Mark Devlin, Rolando Dünner, Giulio Fabbian, Nicholas Galitzki, Joseph E. Golec, Shuay Pwu Patty Ho, Peter C. Hargrave, Anna M. Kofman, Adrian T. LeeMichele Limon, Frederick T. Matsuda, Philip D. Mauskopf, Kavilan Moodley, Federico Nati, Michael D. Niemack, John Orlowski-Scherer, Lyman A. Page, Bruce Partridge, Giuseppe Puglisi, Christian L. Reichardt, Carlos E. Sierra, Sara M. Simon, Grant P. Teply, Carole Tucker, Edward J. Wollack, Zhilei Xu, Ningfeng Zhu

Earth and Space Exploration, School of (SESE)

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

15 Scopus citations

Abstract

We present geometrical and physical optics simulation results for the Simons Observatory Large Aperture Telescope. This work was developed as part of the general design process for the telescope, allowing us to evaluate the impact of various design choices on performance metrics and potential systematic effects. The primary goal of the simulations was to evaluate the final design of the reflectors and the cold optics that are now being built. We describe nonsequential ray tracing used to inform the design of the cold optics, including absorbers internal to each optics tube. We discuss ray tracing simulations of the telescope structure that allow us to determine geometries that minimize detector loading and mitigate spurious near-field effects that have not been resolved by the internal baffling. We also describe physical optics simulations, performed over a range of frequencies and field locations, that produce estimates of monochromatic far-field beam patterns, which in turn are used to gauge general optical performance. Finally, we describe simulations that shed light on beam sidelobes from panel gap diffraction.

Original language	English (US)
Pages (from-to)	823-837
Number of pages	15
Journal	Applied Optics
Volume	60
Issue number	4
DOIs	https://doi.org/10.1364/AO.411533
State	Published - Feb 1 2021

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Engineering (miscellaneous)
Electrical and Electronic Engineering

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10.1364/AO.411533

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Gudmundsson, J. E., Gallardo, P. A., Puddu, R., Dicker, S. R., Adler, A. E., Ali, A. M., Bazarko, A., Chesmore, G. E., Coppi, G., Cothard, N. F., Dachlythra, N., Devlin, M., Dünner, R., Fabbian, G., Galitzki, N., Golec, J. E., Ho, S. P. P., Hargrave, P. C., Kofman, A. M., ... Zhu, N. (2021). The Simons Observatory: modeling optical systematics in the Large Aperture Telescope. Applied Optics, 60(4), 823-837. https://doi.org/10.1364/AO.411533

Gudmundsson, JE, Gallardo, PA, Puddu, R, Dicker, SR, Adler, AE, Ali, AM, Bazarko, A, Chesmore, GE, Coppi, G, Cothard, NF, Dachlythra, N, Devlin, M, Dünner, R, Fabbian, G, Galitzki, N, Golec, JE, Ho, SPP, Hargrave, PC, Kofman, AM, Lee, AT, Limon, M, Matsuda, FT, Mauskopf, PD, Moodley, K, Nati, F, Niemack, MD, Orlowski-Scherer, J, Page, LA, Partridge, B, Puglisi, G, Reichardt, CL, Sierra, CE, Simon, SM, Teply, GP, Tucker, C, Wollack, EJ, Xu, Z & Zhu, N 2021, 'The Simons Observatory: modeling optical systematics in the Large Aperture Telescope', Applied Optics, vol. 60, no. 4, pp. 823-837. https://doi.org/10.1364/AO.411533

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title = "The Simons Observatory: modeling optical systematics in the Large Aperture Telescope",

abstract = "We present geometrical and physical optics simulation results for the Simons Observatory Large Aperture Telescope. This work was developed as part of the general design process for the telescope, allowing us to evaluate the impact of various design choices on performance metrics and potential systematic effects. The primary goal of the simulations was to evaluate the final design of the reflectors and the cold optics that are now being built. We describe nonsequential ray tracing used to inform the design of the cold optics, including absorbers internal to each optics tube. We discuss ray tracing simulations of the telescope structure that allow us to determine geometries that minimize detector loading and mitigate spurious near-field effects that have not been resolved by the internal baffling. We also describe physical optics simulations, performed over a range of frequencies and field locations, that produce estimates of monochromatic far-field beam patterns, which in turn are used to gauge general optical performance. Finally, we describe simulations that shed light on beam sidelobes from panel gap diffraction.",

author = "Gudmundsson, {Jon E.} and Gallardo, {Patricio A.} and Roberto Puddu and Dicker, {Simon R.} and Adler, {Alexandre E.} and Ali, {Aamir M.} and Andrew Bazarko and Chesmore, {Grace E.} and Gabriele Coppi and Cothard, {Nicholas F.} and Nadia Dachlythra and Mark Devlin and Rolando D{\"u}nner and Giulio Fabbian and Nicholas Galitzki and Golec, {Joseph E.} and Ho, {Shuay Pwu Patty} and Hargrave, {Peter C.} and Kofman, {Anna M.} and Lee, {Adrian T.} and Michele Limon and Matsuda, {Frederick T.} and Mauskopf, {Philip D.} and Kavilan Moodley and Federico Nati and Niemack, {Michael D.} and John Orlowski-Scherer and Page, {Lyman A.} and Bruce Partridge and Giuseppe Puglisi and Reichardt, {Christian L.} and Sierra, {Carlos E.} and Simon, {Sara M.} and Teply, {Grant P.} and Carole Tucker and Wollack, {Edward J.} and Zhilei Xu and Ningfeng Zhu",

note = "Publisher Copyright: {\textcopyright} 2021 Optical Society of America",

year = "2021",

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doi = "10.1364/AO.411533",

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AU - Gudmundsson, Jon E.

AU - Gallardo, Patricio A.

AU - Puddu, Roberto

AU - Dicker, Simon R.

AU - Adler, Alexandre E.

AU - Ali, Aamir M.

AU - Bazarko, Andrew

AU - Chesmore, Grace E.

AU - Coppi, Gabriele

AU - Cothard, Nicholas F.

AU - Dachlythra, Nadia

AU - Devlin, Mark

AU - Dünner, Rolando

AU - Fabbian, Giulio

AU - Galitzki, Nicholas

AU - Golec, Joseph E.

AU - Ho, Shuay Pwu Patty

AU - Hargrave, Peter C.

AU - Kofman, Anna M.

AU - Lee, Adrian T.

AU - Limon, Michele

AU - Matsuda, Frederick T.

AU - Mauskopf, Philip D.

AU - Moodley, Kavilan

AU - Nati, Federico

AU - Niemack, Michael D.

AU - Orlowski-Scherer, John

AU - Page, Lyman A.

AU - Partridge, Bruce

AU - Puglisi, Giuseppe

AU - Reichardt, Christian L.

AU - Sierra, Carlos E.

AU - Simon, Sara M.

AU - Teply, Grant P.

AU - Tucker, Carole

AU - Wollack, Edward J.

AU - Xu, Zhilei

AU - Zhu, Ningfeng

PY - 2021/2/1

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N2 - We present geometrical and physical optics simulation results for the Simons Observatory Large Aperture Telescope. This work was developed as part of the general design process for the telescope, allowing us to evaluate the impact of various design choices on performance metrics and potential systematic effects. The primary goal of the simulations was to evaluate the final design of the reflectors and the cold optics that are now being built. We describe nonsequential ray tracing used to inform the design of the cold optics, including absorbers internal to each optics tube. We discuss ray tracing simulations of the telescope structure that allow us to determine geometries that minimize detector loading and mitigate spurious near-field effects that have not been resolved by the internal baffling. We also describe physical optics simulations, performed over a range of frequencies and field locations, that produce estimates of monochromatic far-field beam patterns, which in turn are used to gauge general optical performance. Finally, we describe simulations that shed light on beam sidelobes from panel gap diffraction.

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The Simons Observatory: modeling optical systematics in the Large Aperture Telescope

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