Can coronal hole spicules reach coronal temperatures?

Madjarska, M. S.; Vanninathan, K.; Doyle, J. G.

doi:10.1051/0004-6361/201116735

Cited by 44 publications

(47 citation statements)

References 28 publications

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“…However, spicules can be considered as Alfvén wave resonant cavities (Hollweg 1981;Leroy 1981) and as Matsumoto & Shibata (2010) claim, the waves of the period around 100−500 s can transport a large amount of wave energy to the corona. In all cases, the question of whether large coronal spicules can reach coronal temperatures remains open -for a discussion from an observational point of view we refer to Madjarska et al (2011).…”

Section: Resultsmentioning

confidence: 99%

Magnetohydrodynamic waves and their stability status in solar spicules

Zhelyazkov

2012

A&A

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Aims. We investigate conditions under which magnetohydrodynamic waves propagating along spicules become unstable because of the Kelvin-Helmholtz instability. Methods. We employ the dispersion relations of normal modes (kink and sausage waves) derived from the linearised magnetohydrodynamic equations. We assume real wave numbers and complex angular wave frequencies, namely complex wave phase velocities. The dispersion relations are solved numerically at fixed input parameters and various flow velocities. Results. It is shown that the stability of the waves depends upon three parameters, the density contrast between spicules and their environment, the ratio of the background magnetic field outside to that inside spicules, and the value of the Alfvén-Mach number (the ratio of the jet velocity to Alfvén speed inside the spicules). At certain densities and magnetic fields, an instability of the Kelvin-Helmholtz type can arise if the Alfvén-Mach number exceeds a critical value -in our case it is equal to 12.6, which means that for an Alfvén speed inside the spicules of 70 km s −1 the jet velocity should be larger than 882 km s −1 . Conclusions. It is found that only kink waves can become unstable, while the sausage ones are always unaffected by the Kelvin-Helmholtz instability.

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Section: Resultsmentioning

confidence: 99%

Magnetohydrodynamic waves and their stability status in solar spicules

Zhelyazkov

2012

A&A

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“…A number of other studies have also shown that down flows are associated with higher TR temperatures (T ∼ 0.6−1.0 MK) A&A 543, A6 (2012) and high speed up-flows are seen at coronal temperatures (T > 1 MK), e.g. Marsch et al (2004Marsch et al ( , 2008, Bryans et al (2010), , Kamio et al (2011).…”

Section: Introductionmentioning

confidence: 91%

Chromospheric jets around the edges of sunspots

Morton

2012

A&A

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Aims. Evidence is beginning to be put forward that demonstrates the role of the chromosphere in supplying energy and mass to the corona. We aim to assess the role of chromospheric jets in active region dynamics. Methods. Using a combination of the Hinode/SOT Ca II H and TRACE 1550 Å and 1600 Å filters we examine chromospheric jets situated at the edge of a sunspot. Results. Analysis reveals a near continuous series of jets, that raise chromospheric material into the low corona above a sunspot. The jets have average rise speeds of 30 km s −1 and a range of 10−100 km s −1 . Enhanced emission observed at the jets leading edge suggests the formation of a shock front. Increased emission in TRACE bandpasses above the sunspot and the disappearance of the jets from the Ca II filter suggests that some of the chromospheric jet material is at least heated to ∼0.1 MK. The evidence suggests that the jets could be a source of steady, low-level heating for active region features.

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“…Recently, Martiunez-Sykora et al (2017a) used the same model as the current paper to propose a new spicule formation mechanism that can reproduce the observed properties of spicules. This model has the potential to resolve some of the remaining unresolved issues with respect to the impact of spicules on the TR and corona Madjarska et al 2011;Judge et al 2012). Other phenomena are better understood, but current models cannot fully capture some of their properties, e.g., the length and lifetime of dynamic fibrils (Suematsu et al 1995;Hansteen et al 2006;Heggland et al 2007;Martínez-Sykora et al 2009b;Iijima & Yokoyama 2015).…”

Section: Introductionmentioning

confidence: 99%

Two-dimensional Radiative Magnetohydrodynamic Simulations of Partial Ionization in the Chromosphere. II. Dynamics and Energetics of the Low Solar Atmosphere

Martínez-Sykora

Pontieu

Carlsson

et al. 2017

ApJ

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We investigate the effects of interactions between ions and neutrals on the chromosphere and overlying corona using 2.5D radiative MHD simulations with the Bifrost code. We have extended the code capabilities implementing ion-neutral interaction effects using the generalized Ohm's law, i.e., we include the Hall term and the ambipolar diffusion (Pedersen dissipation) in the induction equation. Our models span from the upper convection zone to the corona, with the photosphere, chromosphere, and transition region partially ionized. Our simulations reveal that the interactions between ionized particles and neutral particles have important consequences for the magnetothermodynamics of these modeled layers: (1) ambipolar diffusion increases the temperature in the chromosphere; (2) sporadically the horizontal magnetic field in the photosphere is diffused into the chromosphere, due to the large ambipolar diffusion; (3) ambipolar diffusion concentrates electrical currents, leading to more violent jets and reconnection processes, resulting in (3a) the formation of longer and faster spicules, (3b) heating of plasma during the spicule evolution, and (3c) decoupling of the plasma and magnetic field in spicules. Our results indicate that ambipolar diffusion is a critical ingredient for understanding the magnetothermodynamic properties in the chromosphere and transition region. The numerical simulations have been made publicly available, similar to previous Bifrost simulations. This will allow the community to study realistic numerical simulations with a wider range of magnetic field configurations and physics modules than previously possible.

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Can coronal hole spicules reach coronal temperatures?

Cited by 44 publications

References 28 publications

Magnetohydrodynamic waves and their stability status in solar spicules

Magnetohydrodynamic waves and their stability status in solar spicules

Chromospheric jets around the edges of sunspots

Two-dimensional Radiative Magnetohydrodynamic Simulations of Partial Ionization in the Chromosphere. II. Dynamics and Energetics of the Low Solar Atmosphere

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