Novel Space Coronagraphs: METIS, a flexible optical design for multi-wavelength imaging and spectrography

被引:17
|
作者
Fineschi, Silvano [1 ]
Antonucci, Ester [1 ]
Romoli, Marco
Bemporad, Alessandro [1 ]
Capobianco, Gerardo [1 ]
Crescenzio, Giuseppe [1 ]
Nicolini, Gianalfredo [1 ]
Massone, Giuseppe [1 ]
Telloni, Daniele [1 ]
Focardi, Mauro
Landini, Federico
Pancrazzi, Maurizio
Poletto, Luca
Pelizzo, Maria-G.
Da Deppo, Vania
Moses, J. Dan
Andretta, Vincenzo
Naletto, Giampiero
Nicolosi, Piergiorgio
Spadaro, Daniele
Berlicki, Arkadiusz
Uslenghi, Michela
Malvezzi, Marco
Teriaca, Luca
Abbo, L. [1 ]
Magli, Enrico
机构
[1] INAF Astrophys Observ Torino, Turin, Italy
来源
SOLAR PHYSICS AND SPACE WEATHER INSTRUMENTATION V | 2013年 / 8862卷
关键词
Solar instrumentation; Coronagraphy; UV imaging; UV Spectrography; visible-light polarimetry; STRAY-LIGHT ANALYSIS; SCATTERED-LIGHT; ULTRAVIOLET; REDUCTION;
D O I
10.1117/12.2028544
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
This presentation outlines a general optical design for coronagraphs working in both the visible-light (VL) and UV/EUV wavelength ranges by combining the use of reflective, multilayer-coated or interference-coated optics with Lyot stops. This design has been successfully applied to a sub-orbital coronagraph. Another version of this novel design for visible-light/EUV coronagraphs uses an inverted-occultation design in order to minimize the solar flux entering the instrument. This design has been used for the coronagraph - METIS - on board the ESA Solar Orbital mission. The current optical configuration of METIS adopted for the Solar Orbiter mission includes Visible-light and UV imaging. However, the innovative inverted-occultation concept is flexible enough that it can also accommodate a EUV spectrograph maintaining the same basic optical layout. The paper also describes the potential capabilities of the inverted-occulter coronagraph as a VL/UV imager and EUV spectrograph for future solar missions.
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页数:12
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