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Measurements of the Magnetic Field Strengths at the Bases of Stellar Coronae Using the Magnetic-field-induced Transition Theory

Yajie Chen, Xianyu Liu, Hui Tian, Xianyong Bai, Meng Jin, Wenxian Li, Yang Yang, Zihao Yang, Yuanyong Deng

2021The Astrophysical Journal Letters11 citationsDOIOpen Access PDF

Abstract

Abstract Measurements of the magnetic field in the stellar coronae are extremely difficult. Recently, it was proposed that the magnetic-field-induced transition (MIT) of the Fe x 257 Å line can be used to measure the coronal magnetic field of the Sun. We performed forward modeling with a series of global stellar magnetohydrodynamics models to investigate the possibility of extending this method to other late-type stars. We first synthesized the emissions of several Fe x lines for each stellar model, then calculated the magnetic field strengths using the intensity ratios of Fe x 257 Å to several other Fe x lines based on the MIT theory. Finally, we compared the derived field strengths with those in the models, and concluded that this method can be used to measure at least the magnetic field strengths at the coronal bases of stars with a mean surface magnetic flux density about one order of magnitude higher than that of the Sun. Our investigation suggests the need for an extreme ultraviolet spectrometer to perform routine measurements of the stellar coronal magnetic field.

Topics & Concepts

Magnetic fieldStellar magnetic fieldPhysicsStellar atmosphereAstrophysicsExtreme ultravioletMagnetic fluxStarsField (mathematics)Spectral lineLine (geometry)Flux (metallurgy)Measure (data warehouse)SpectrometerComputational physicsUltravioletIntensity (physics)MagnetohydrodynamicsCorona (planetary geology)Magnetic energyAstronomical spectroscopyField strengthDipole model of the Earth's magnetic fieldCoronal loopField linePhotosphereSolar and Space Plasma DynamicsStellar, planetary, and galactic studiesAstrophysics and Star Formation Studies
Measurements of the Magnetic Field Strengths at the Bases of Stellar Coronae Using the Magnetic-field-induced Transition Theory | Litcius