Heliophysics Events Knowledgebase Coverage Registry (HCR)
Observation Details
Overview Where Groups: Mode, FOV, # spectra in map Data Links
2018-06-07 10:50:06-11:11:05
HOP358
Magnetism in Spicules
x,y:628",140"
Max FOV:56"x81"
Target:Spicule and Jets
Nearby Events
6302A Continuum Intensity56"x81"358 spectra
6302A Longitudinal Flux Density56"x81"358 spectra
6302A Transverse Flux Density56"x81"358 spectra
6302A Velocity 6301.5A56"x81"358 spectra

Level 1 Summary
Level 2 Summary
Level 1 Monthly
Level 2 Monthly
SP Cubes 6 MB
SOTSP: HOP358
2018-06-07T10:50:06 to 2018-06-07T11:11:05
Science Goal: Magnetism in Spicules
Program: Full Res 50"x81" scan 1-sided
Target: Spicule and Jets
xcen=628 ycen=140
Instrument: SOTSP
HOP/JOP: 358
Description: Spicules may play an important role in the heating of the corona and in powering the solar wind (De Pontieu et al. 2007, 2017). Currently, the dynamics of these structures is well-known (e.g., Rouppe van der Voort et al. 2009, Pereira et al. 2012), and the MHD simulations have shown substantial advances in understanding their origin (e.g., Martinez-Sykora et al. 2017). However, the magnetic structure inside spicules is still poorly understood (e.g., Trujillo Bueno et al. 2005, Orozco Suarez et al. 2015). Due to projection effects, the counterpart of spicules on-disk is still under debate (Rouppe van der Voort et al., 2015). The lack of information of the magnetism inspicules is mainly because the high observational requirements needed to study these phenomena. The fast new cameras installed in the 1.5 m GREGOR telescope (GRIS+) overcome these difficulties, opening a new generation of studies of the magnetic structure of solar spicules. GRIS+ will for the first time allow for diffraction limited spectro-polarimetric observations in the He 10830 line with unprecedented signal-to-noise ratio and therefore complement the IRIS and Hinode spicule observations ideally.

Spicules may play an important role in the heating of the corona and in powering the solar wind (De Pontieu et al. 2007, 2017). Currently, the dynamics of these structures is well-known (e.g., Rouppe van der Voort et al. 2009, Pereira et al. 2012), and the MHD simulations have shown substantial advances in understanding their origin (e.g., Martinez-Sykora et al. 2017). However, the magnetic structure inside spicules is still poorly understood (e.g., Trujillo Bueno et al. 2005, Orozco Suarez et al. 2015). Due to projection effects, the counterpart of spicules on-disk is still under debate (Rouppe van der Voort et al., 2015). The lack of information of the magnetism inspicules is mainly because the high observational requirements needed to study these phenomena. The fast new cameras installed in the 1.5 m GREGOR telescope (GRIS+) overcome these difficulties, opening a new generation of studies of the magnetic structure of solar spicules. GRIS+ will for the first time allow for diffraction limited spectro-polarimetric observations in the He 10830 line with unprecedented signal-to-noise ratio and therefore complement the IRIS and Hinode spicule observations ideally.

Annotations:
Hits: 71
Chief Observer
DeRosa (RCO) -> Oba
Related Links
Cites: HOP358     
Timeline: gif use
See also
Datasets
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saaIntervals hiIntervals

wavelength: 6302A Continuum Intensity cadence: -1 min fov: 56,81 images: 358 JavaScript Landing Page
wavelength: 6302A Velocity 6301.5A cadence: -1 min fov: 56,81 images: 358 JavaScript Landing Page
wavelength: 6302A Transverse Flux Density cadence: -1 min fov: 56,81 images: 358 JavaScript Landing Page
wavelength: 6302A Longitudinal Flux Density cadence: -1 min fov: 56,81 images: 358 JavaScript Landing Page
Time Series (SP Datacubes)