In flight stray light reduction for the Solar Orbiter/Metis coronagraph

Federico Landini; Marco Romoli; Gianalfredo Nicolini; Fabio Frassetto; Roberto Susino; Lucia Abbo; Vincenzo Andretta; Aleksandr Burtovoi; Chiara Casini; Paolo Chioetto; Alain J. Corso; Vania Da Deppo; Yara De Leo; Michele Fabi; Silvano Fineschi; Federica Frassati; Catia Grimani; Petr Heinzel; Giovanna Jerse; Alessandro Liberatore; Giampiero Naletto; Maurizio Pancrazzi; Giuliana Russano; Clementina Sasso; Daniele Spadaro; Marco Stangalini; Daniele Telloni; Luca Teriaca; Michela Uslenghi; Cosimo A. Volpicelli; Paola Zuppella

doi:10.1117/12.2688578

In flight stray light reduction for the Solar Orbiter/Metis coronagraph

Federico Landini
, Marco Romoli
, Gianalfredo Nicolini
, Fabio Frassetto
, Roberto Susino
, Lucia Abbo
, Vincenzo Andretta
, Aleksandr Burtovoi
, Chiara Casini
, Paolo Chioetto
, Alain J. Corso
, Vania Da Deppo
, Yara De Leo
, Michele Fabi
, Silvano Fineschi
, Federica Frassati
, Catia Grimani
, Petr Heinzel
, Giovanna Jerse
, Alessandro Liberatore

Giampiero Naletto, Maurizio Pancrazzi, Giuliana Russano, Clementina Sasso, Daniele Spadaro, Marco Stangalini, Daniele Telloni, Luca Teriaca, Michela Uslenghi, Cosimo A. Volpicelli, Paola Zuppella

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

Abstract

After the 10th February 2020 launch (04:03 UTC), Solar Orbiter has recently begun its Nominal Mission Phase and is collecting imaging data as never seen before due to its peculiar orbit. The Metis coronagraph produces maps of the linearly polarized visible light corona in the wavelength band 580-640 nm and UV maps in the Lyman alpha H i 121.6 nm line. Metis is a coronagraph characterized by an innovative external occultation system that has a twofold function: reduce the thermal load and remove the diffraction due to the external occulter support. The positions of the entrance pupil (which is called Inverted External Occulter, IEO) and of the actual occulter are switched so that the pupil is the surface facing the solar disk and the occultation is performed by a spherical mirror, M0. M0 is positioned 800 mm behind IEO and reflects the disk light back through the IEO aperture. An Internal Occulter (IO) is conjugated to the IEO with respect to the primary mirror. IO is mounted on a motorized 2-axis stage that allows to perform in-flight fine adjustments to its position. During the on-ground calibration campaign the contribution of the stray light due to the diffraction from the IEO and scattering off the optics was measured. The measurement was carried out by using the OPSys facility in Torino (Italy), which is equipped with a clean environment and a source that simulates the solar disk divergence. A stray light measurement in flight is not trivial due to the presence of the solar corona. Nevertheless, an IO position optimization campaign has been conducted in order to reduce the stray light. A procedure was developed in order to minimize the stray light level on the instrument focal plane. This contribution reports on the procedure and on the results.

Original language	English
Title of host publication	International Conference on Space Optics, ICSO 2022
Editors	Kyriaki Minoglou, Nikos Karafolas, Bruno Cugny
Publisher	SPIE
ISBN (Electronic)	9781510668034
DOIs	https://doi.org/10.1117/12.2688578
Publication status	Published - 1 Jan 2023
Externally published	Yes
Event	2022 International Conference on Space Optics, ICSO 2022 - Dubrovnik, Croatia Duration: 3 Oct 2022 → 7 Oct 2022

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	12777
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	2022 International Conference on Space Optics, ICSO 2022
Country/Territory	Croatia
City	Dubrovnik
Period	3/10/22 → 7/10/22

Keywords

Data analysis
Motorized parts in flight
Performance evaluation
Solar Orbiter
Stray light
solar coronagraph

Access to Document

10.1117/12.2688578

Cite this

Landini, F., Romoli, M., Nicolini, G., Frassetto, F., Susino, R., Abbo, L., Andretta, V., Burtovoi, A., Casini, C., Chioetto, P., Corso, A. J., Deppo, V. D., De Leo, Y., Fabi, M., Fineschi, S., Frassati, F., Grimani, C., Heinzel, P., Jerse, G., ... Zuppella, P. (2023). In flight stray light reduction for the Solar Orbiter/Metis coronagraph. In K. Minoglou, N. Karafolas, & B. Cugny (Eds.), International Conference on Space Optics, ICSO 2022 Article 1277704 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 12777). SPIE. https://doi.org/10.1117/12.2688578

@inproceedings{60e0c81fc4ee4dc787ecd25e73230340,

title = "In flight stray light reduction for the Solar Orbiter/Metis coronagraph",

abstract = "After the 10th February 2020 launch (04:03 UTC), Solar Orbiter has recently begun its Nominal Mission Phase and is collecting imaging data as never seen before due to its peculiar orbit. The Metis coronagraph produces maps of the linearly polarized visible light corona in the wavelength band 580-640 nm and UV maps in the Lyman alpha H i 121.6 nm line. Metis is a coronagraph characterized by an innovative external occultation system that has a twofold function: reduce the thermal load and remove the diffraction due to the external occulter support. The positions of the entrance pupil (which is called Inverted External Occulter, IEO) and of the actual occulter are switched so that the pupil is the surface facing the solar disk and the occultation is performed by a spherical mirror, M0. M0 is positioned 800 mm behind IEO and reflects the disk light back through the IEO aperture. An Internal Occulter (IO) is conjugated to the IEO with respect to the primary mirror. IO is mounted on a motorized 2-axis stage that allows to perform in-flight fine adjustments to its position. During the on-ground calibration campaign the contribution of the stray light due to the diffraction from the IEO and scattering off the optics was measured. The measurement was carried out by using the OPSys facility in Torino (Italy), which is equipped with a clean environment and a source that simulates the solar disk divergence. A stray light measurement in flight is not trivial due to the presence of the solar corona. Nevertheless, an IO position optimization campaign has been conducted in order to reduce the stray light. A procedure was developed in order to minimize the stray light level on the instrument focal plane. This contribution reports on the procedure and on the results.",

keywords = "Data analysis, Motorized parts in flight, Performance evaluation, Solar Orbiter, Stray light, solar coronagraph",

author = "Federico Landini and Marco Romoli and Gianalfredo Nicolini and Fabio Frassetto and Roberto Susino and Lucia Abbo and Vincenzo Andretta and Aleksandr Burtovoi and Chiara Casini and Paolo Chioetto and Corso, \{Alain J.\} and Deppo, \{Vania Da\} and \{De Leo\}, Yara and Michele Fabi and Silvano Fineschi and Federica Frassati and Catia Grimani and Petr Heinzel and Giovanna Jerse and Alessandro Liberatore and Giampiero Naletto and Maurizio Pancrazzi and Giuliana Russano and Clementina Sasso and Daniele Spadaro and Marco Stangalini and Daniele Telloni and Luca Teriaca and Michela Uslenghi and Volpicelli, \{Cosimo A.\} and Paola Zuppella",

year = "2023",

month = jan,

day = "1",

doi = "10.1117/12.2688578",

language = "English",

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

publisher = "SPIE",

editor = "Kyriaki Minoglou and Nikos Karafolas and Bruno Cugny",

booktitle = "International Conference on Space Optics, ICSO 2022",

}

Landini, F, Romoli, M, Nicolini, G, Frassetto, F, Susino, R, Abbo, L, Andretta, V, Burtovoi, A, Casini, C, Chioetto, P, Corso, AJ, Deppo, VD, De Leo, Y, Fabi, M, Fineschi, S, Frassati, F, Grimani, C, Heinzel, P, Jerse, G, Liberatore, A, Naletto, G, Pancrazzi, M, Russano, G, Sasso, C, Spadaro, D, Stangalini, M, Telloni, D, Teriaca, L, Uslenghi, M, Volpicelli, CA & Zuppella, P 2023, In flight stray light reduction for the Solar Orbiter/Metis coronagraph. in K Minoglou, N Karafolas & B Cugny (eds), International Conference on Space Optics, ICSO 2022., 1277704, Proceedings of SPIE - The International Society for Optical Engineering, vol. 12777, SPIE, 2022 International Conference on Space Optics, ICSO 2022, Dubrovnik, Croatia, 3/10/22. https://doi.org/10.1117/12.2688578

In flight stray light reduction for the Solar Orbiter/Metis coronagraph. / Landini, Federico; Romoli, Marco; Nicolini, Gianalfredo et al.
International Conference on Space Optics, ICSO 2022. ed. / Kyriaki Minoglou; Nikos Karafolas; Bruno Cugny. SPIE, 2023. 1277704 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 12777).

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

TY - GEN

T1 - In flight stray light reduction for the Solar Orbiter/Metis coronagraph

AU - Landini, Federico

AU - Romoli, Marco

AU - Nicolini, Gianalfredo

AU - Frassetto, Fabio

AU - Susino, Roberto

AU - Abbo, Lucia

AU - Andretta, Vincenzo

AU - Burtovoi, Aleksandr

AU - Casini, Chiara

AU - Chioetto, Paolo

AU - Corso, Alain J.

AU - Deppo, Vania Da

AU - De Leo, Yara

AU - Fabi, Michele

AU - Fineschi, Silvano

AU - Frassati, Federica

AU - Grimani, Catia

AU - Heinzel, Petr

AU - Jerse, Giovanna

AU - Liberatore, Alessandro

AU - Naletto, Giampiero

AU - Pancrazzi, Maurizio

AU - Russano, Giuliana

AU - Sasso, Clementina

AU - Spadaro, Daniele

AU - Stangalini, Marco

AU - Telloni, Daniele

AU - Teriaca, Luca

AU - Uslenghi, Michela

AU - Volpicelli, Cosimo A.

AU - Zuppella, Paola

PY - 2023/1/1

Y1 - 2023/1/1

N2 - After the 10th February 2020 launch (04:03 UTC), Solar Orbiter has recently begun its Nominal Mission Phase and is collecting imaging data as never seen before due to its peculiar orbit. The Metis coronagraph produces maps of the linearly polarized visible light corona in the wavelength band 580-640 nm and UV maps in the Lyman alpha H i 121.6 nm line. Metis is a coronagraph characterized by an innovative external occultation system that has a twofold function: reduce the thermal load and remove the diffraction due to the external occulter support. The positions of the entrance pupil (which is called Inverted External Occulter, IEO) and of the actual occulter are switched so that the pupil is the surface facing the solar disk and the occultation is performed by a spherical mirror, M0. M0 is positioned 800 mm behind IEO and reflects the disk light back through the IEO aperture. An Internal Occulter (IO) is conjugated to the IEO with respect to the primary mirror. IO is mounted on a motorized 2-axis stage that allows to perform in-flight fine adjustments to its position. During the on-ground calibration campaign the contribution of the stray light due to the diffraction from the IEO and scattering off the optics was measured. The measurement was carried out by using the OPSys facility in Torino (Italy), which is equipped with a clean environment and a source that simulates the solar disk divergence. A stray light measurement in flight is not trivial due to the presence of the solar corona. Nevertheless, an IO position optimization campaign has been conducted in order to reduce the stray light. A procedure was developed in order to minimize the stray light level on the instrument focal plane. This contribution reports on the procedure and on the results.

AB - After the 10th February 2020 launch (04:03 UTC), Solar Orbiter has recently begun its Nominal Mission Phase and is collecting imaging data as never seen before due to its peculiar orbit. The Metis coronagraph produces maps of the linearly polarized visible light corona in the wavelength band 580-640 nm and UV maps in the Lyman alpha H i 121.6 nm line. Metis is a coronagraph characterized by an innovative external occultation system that has a twofold function: reduce the thermal load and remove the diffraction due to the external occulter support. The positions of the entrance pupil (which is called Inverted External Occulter, IEO) and of the actual occulter are switched so that the pupil is the surface facing the solar disk and the occultation is performed by a spherical mirror, M0. M0 is positioned 800 mm behind IEO and reflects the disk light back through the IEO aperture. An Internal Occulter (IO) is conjugated to the IEO with respect to the primary mirror. IO is mounted on a motorized 2-axis stage that allows to perform in-flight fine adjustments to its position. During the on-ground calibration campaign the contribution of the stray light due to the diffraction from the IEO and scattering off the optics was measured. The measurement was carried out by using the OPSys facility in Torino (Italy), which is equipped with a clean environment and a source that simulates the solar disk divergence. A stray light measurement in flight is not trivial due to the presence of the solar corona. Nevertheless, an IO position optimization campaign has been conducted in order to reduce the stray light. A procedure was developed in order to minimize the stray light level on the instrument focal plane. This contribution reports on the procedure and on the results.

KW - Data analysis

KW - Motorized parts in flight

KW - Performance evaluation

KW - Solar Orbiter

KW - Stray light

KW - solar coronagraph

U2 - 10.1117/12.2688578

DO - 10.1117/12.2688578

M3 - Conference contribution

AN - SCOPUS:85174020678

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

BT - International Conference on Space Optics, ICSO 2022

A2 - Minoglou, Kyriaki

A2 - Karafolas, Nikos

A2 - Cugny, Bruno

PB - SPIE

T2 - 2022 International Conference on Space Optics, ICSO 2022

Y2 - 3 October 2022 through 7 October 2022

ER -

In flight stray light reduction for the Solar Orbiter/Metis coronagraph

Abstract

Publication series

Conference

Keywords

Access to Document

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Cite this