2022
DOI: 10.1007/s10509-022-04097-8
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Ultraviolet spectropolarimetric diagnostics of hot star magnetospheres

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Cited by 5 publications
(1 citation statement)
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“…The majority of the detected large-scale magnetic fields of the magnetic hot stars are stable over time spans of up to decades (e.g., Oksala et al 2012;Sikora et al 2019), and have a predominantly dipole topological structure inclined to the rotational axis, with magnetic field strengths ranging from tens of Gauss to tens of kilo-Gauss (e.g., Shultz et al 2018;Järvinen et al 2021). Strong magnetic fields have been considered to explain the particular properties of these hot stars, such as photometric variations (e.g., Oksala et al 2015;Shen et al 2023), Hα line variations (e.g., Wisniewski et al 2015;Hubrig et al 2017;Shultz et al 2020), the UV resonance line variations (e.g., Shore & Brown 1990;ud-Doula et al 2022), the X-ray properties (e.g., Wade et al 2012;Petit et al 2015), and the radio emissions (e.g., Leto et al 2017;Shultz et al 2022).…”
Section: Introductionmentioning
confidence: 99%
“…The majority of the detected large-scale magnetic fields of the magnetic hot stars are stable over time spans of up to decades (e.g., Oksala et al 2012;Sikora et al 2019), and have a predominantly dipole topological structure inclined to the rotational axis, with magnetic field strengths ranging from tens of Gauss to tens of kilo-Gauss (e.g., Shultz et al 2018;Järvinen et al 2021). Strong magnetic fields have been considered to explain the particular properties of these hot stars, such as photometric variations (e.g., Oksala et al 2015;Shen et al 2023), Hα line variations (e.g., Wisniewski et al 2015;Hubrig et al 2017;Shultz et al 2020), the UV resonance line variations (e.g., Shore & Brown 1990;ud-Doula et al 2022), the X-ray properties (e.g., Wade et al 2012;Petit et al 2015), and the radio emissions (e.g., Leto et al 2017;Shultz et al 2022).…”
Section: Introductionmentioning
confidence: 99%