H. Laguna scite author profile

Aims. This paper describes the Polarimetric and Helioseismic Imager on the Solar Orbiter mission (SO/PHI), the first magnetograph and helioseismology instrument to observe the Sun from outside the Sun-Earth line. It is the key instrument meant to address the top-level science question: How does the solar dynamo work and drive connections between the Sun and the heliosphere? SO/PHI will also play an important role in answering the other top-level science questions of Solar Orbiter, as well as hosting the potential of a rich return in further science. Methods. SO/PHI measures the Zeeman effect and the Doppler shift in the Fe i 617.3 nm spectral line. To this end, the instrument carries out narrow-band imaging spectro-polarimetry using a tunable LiNbO 3 Fabry-Perot etalon, while the polarisation modulation is done with liquid crystal variable retarders (LCVRs). The line and the nearby continuum are sampled at six wavelength points and the data are recorded by a 2k × 2k CMOS detector. To save valuable telemetry, the raw data are reduced on board, including being inverted under the assumption of a Milne-Eddington atmosphere, although simpler reduction methods are also available on board. SO/PHI is composed of two telescopes; one, the Full Disc Telescope (FDT), covers the full solar disc at all phases of the orbit, while the other, the High Resolution Telescope (HRT), can resolve structures as small as 200 km on the Sun at closest perihelion. The high heat load generated through proximity to the Sun is greatly reduced by the multilayer-coated entrance windows to the two telescopes that allow less than 4% of the total sunlight to enter the instrument, most of it in a narrow wavelength band around the chosen spectral line. Results. SO/PHI was designed and built by a consortium having partners in Germany, Spain, and France. The flight model was delivered to Airbus Defence and Space, Stevenage, and successfully integrated into the Solar Orbiter spacecraft. A number of innovations were introduced compared with earlier space-based spectropolarimeters, thus allowing SO/PHI to fit into the tight mass, volume, power and telemetry budgets provided by the Solar Orbiter spacecraft and to meet the (e.g. thermal) challenges posed by the mission's highly elliptical orbit.

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The Imaging Magnetograph eXperiment (IMaX) for the Sunrise Balloon-Borne Solar Observatory

Pillet

et al. 2010

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The Imaging Magnetograph eXperiment (IMaX) is a spectropolarimeter built by four institutions in Spain that flew on board the Sunrise balloon-borne solar observatory in June 2009 for almost six days over the Arctic Circle. As a polarimeter, IMaX uses fast polarization modulation (based on the use of two liquid crystal retarders), real-time image accumulation, and dual-beam polarimetry to reach polarization sensitivities of 0.1%. As a spectrograph, the instrument uses a LiNbO 3 etalon in double pass and a narrow band V. Martínez Pillet ( ) · J.A. Bonet · E. Ballesteros · M. Collados · S. Vargas Domínguez Instituto de Astrofísica de Canarias, 38200, La Laguna, Tenerife, Spain e-mail: vmp@iac.es pre-filter to achieve a spectral resolution of 85 mÅ. IMaX uses the high-Zeeman-sensitive line of Fe I at 5250.2 Å and observes all four Stokes parameters at various points inside the spectral line. This allows vector magnetograms, Dopplergrams, and intensity frames to be produced that, after reconstruction, reach spatial resolutions in the 0.15 -0.18 arcsec range over a 50 × 50 arcsec field of view. Time cadences vary between 10 and 33 s, although the shortest one only includes longitudinal polarimetry. The spectral line is sampled in various ways depending on the applied observing mode, from just two points inside the line to 11 of them. All observing modes include one extra wavelength point in the nearby continuum. Gauss equivalent sensitivities are 4 G for longitudinal fields and 80 G for transverse fields per wavelength sample. The line-of-sight velocities are estimated with statistical errors of the order of 5 -40 m s −1 . The design, calibration, and integration phases of the instrument, together with the implemented data reduction scheme, are described in some detail.

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TuMag for SUNRISE III mission: development of the optical unit of an imaging spectropolarimeter

Alvarez-Herrero¹,

Fernández-Medina

Cebollero

et al. 2022

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Polarization modulators based on liquid crystal variable retarders for the Solar Orbiter mission

Alvarez-Herrero¹,

Parejo

Laguna

et al. 2015

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Resultados y aprendizajes de la evaluación de políticas agropecuarias en Uruguay

et al. 2020

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aprendidas en dicho proceso, en tres partes. En la primera se resumen las principales razones y fundamentos para la evaluación de políticas en el MGAP y el diseño institucional elegido. En segundo lugar se comentan los avances en la institucionalización de la evaluación de políticas dentro del MGAP. Finalmente, se presentan los principales productos realizados y las lecciones aprendidas para el uso de las evaluaciones en la toma de decisiones basadas en evidencia.

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H. Laguna

The Polarimetric and Helioseismic Imager on Solar Orbiter

The Imaging Magnetograph eXperiment (IMaX) for the Sunrise Balloon-Borne Solar Observatory

TuMag for SUNRISE III mission: development of the optical unit of an imaging spectropolarimeter

Polarization modulators based on liquid crystal variable retarders for the Solar Orbiter mission

Resultados y aprendizajes de la evaluación de políticas agropecuarias en Uruguay

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