2020
DOI: 10.3847/1538-4357/ab7b7a
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Coronal Electron Temperature Inferred from the Strahl Electrons in the Inner Heliosphere: Parker Solar Probe and Helios Observations

Abstract: The shape of the electron velocity distribution function plays an important role in the dynamics of the solar wind acceleration. Electrons are normally modelled with three components, the core, the halo, and the strahl. We investigate how well the fast strahl electrons in the inner heliosphere preserve the information about the coronal electron temperature at their origin. We analysed the data obtained by two missions, Helios spanning the distances between 65 and 215 R S , and Parker Solar Probe (PSP) reaching… Show more

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Cited by 55 publications
(106 citation statements)
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“…We therefore conclude that the most likely explanation of these peaks is due to their association with the CH boundaries themselves. While other enhancements in flux are observed during the PSP encounter (Figure 1), this is expected based on previous studies relating suprathermal electron properties (such as temperature) to different sources (Hefti et al 1998;Macneil et al 2017;Berčič et al 2020;Maksimovic et al 2020). Thus CH boundaries are not the sole cause of enhancements in suprathermal electron flux close to the Sun, and this is largely unsurprising.…”
Section: Discussionsupporting
confidence: 67%
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“…We therefore conclude that the most likely explanation of these peaks is due to their association with the CH boundaries themselves. While other enhancements in flux are observed during the PSP encounter (Figure 1), this is expected based on previous studies relating suprathermal electron properties (such as temperature) to different sources (Hefti et al 1998;Macneil et al 2017;Berčič et al 2020;Maksimovic et al 2020). Thus CH boundaries are not the sole cause of enhancements in suprathermal electron flux close to the Sun, and this is largely unsurprising.…”
Section: Discussionsupporting
confidence: 67%
“…This fitting technique was motivated by the exospheric models' prediction that , in absence of collisions and wave-particle interactions, remains unchanged from the solar corona, and preserves information about the electron VDF at its origin. For more details about the fitting procedure see Section 3.1 in Berčič et al (2020).…”
Section: Methodsmentioning
confidence: 99%
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“…(Domingo, 2002;Meyer-Vernet, 2007;Lazar, 2012), enabling also indirect interpretations of plasma physics at low heliocentric distances in the corona where direct in-situ measurements were not possible (Scudder, 1992;Pierrard, Maksimovic, and Lemaire, 2001a,b). The new observations from Parker Solar Probe (PSP) and Solar Orbiter (SO) are expected to confirm these predictions, and explain the main mechanisms which trigger plasma outflows and modulate the main properties of the SW plasma particles, i.e., electrons, protons and heavier ions (Berčič et al, 2020;Halekas et al, 2020;Maksimovic et al, 2020). Measured in-situ, the velocity distributions of different species (subscript s) are used to determine their macroscopic properties (moments), such as number densities n s , bulk velocities u s , temperatures T s , and, implicitly, their plasma betas β s = 8πn s k B T s /B 2 0 , or temperature anisotropy T s,⊥ /T s, , with ⊥, indicating gyrotropic directions with respect to the magnetic field.…”
Section: Introductionmentioning
confidence: 83%