Multi-component Decomposition of Astronomical Spectra by Compressed Sensing

Multi-component Decomposition of Astronomical Spectra by Compressed Sensing

The signal measured by an astronomical spectrometer may be due to radiation from a multi-component mixture of plasmas with a range of physical properties (e.g., temperature, Doppler velocity). Confusion between multiple components may be exacerbated if the spectrometer sensor is illuminated by overl...

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Veröffentlicht in:The Astrophysical journal 2019-09, Vol.882 (1), p.13
Hauptverfasser: Cheung, Mark C. M., De Pontieu, Bart, Martínez-Sykora, Juan, Testa, Paola, Winebarger, Amy R., Daw, Adrian, Hansteen, Viggo, Antolin, Patrick, Tarbell, Theodore D., Wuelser, Jean-Pierre, Young, Peter
Format: Artikel
Sprache:eng
Schlagworte:
Astronomy
Astrophysics
Celestial bodies
instrumentation: spectrographs
line: profiles
methods: observational
Physical properties
Plasmas (physics)
Radiation
Slits
Spectrometers
Sun: corona
techniques: imaging spectroscopy
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Zusammenfassung:The signal measured by an astronomical spectrometer may be due to radiation from a multi-component mixture of plasmas with a range of physical properties (e.g., temperature, Doppler velocity). Confusion between multiple components may be exacerbated if the spectrometer sensor is illuminated by overlapping spectra dispersed from different slits, with each slit being exposed to radiation from a different portion of an extended astrophysical object. We use a compressed sensing method to robustly retrieve the different components. This method can be adopted for a variety of spectrometer configurations, including single-slit, multi-slit (e.g., the proposed MUlti-slit Solar Explorer mission), and slot spectrometers (which produce overlappograms).
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ab263d