The heating of the solar atmosphere remains a mystery. Over the past several decades, scientists have examined the observational properties of structures in the solar atmosphere, notably their temperature, density, lifetime, and geometry, to determine the location, frequency, and duration of heating. In this talk, I will review these observational results, focusing on the wealth of information stored in the light curve of structures in different spectral lines or channels available in the Solar Dynamic Observatory's Atmospheric Imaging Assembly, Hinode's X-ray Telescope and Extreme-ultraviolet Imaging Spectrometer, and the Interface Region Imaging Spectrograph. I will discuss some recent results from combined data sets that support the heat...
The solar corona, the tenuous outer atmosphere of the Sun, is orders of magnitude hotter than the so...
Context: The radiative losses in the solar chromosphere vary from 4 kW m−2 in the quiet Sun, to 20 k...
In recent papers by Priest et al., the nature of the coronal heating mechanism in the large-scale so...
The Sun’s outer coronal layer exists at a temperature of millions of kelvins, much hotter than the s...
The identification of small-scale 3-D heating events in numerical simulations brought us a step clos...
While our Sun may appear boring at first glance, the solar corona, the outermost layer of the Sun's ...
The atmosphere of the Sun is envisioned as composed of inherently complex, non-homogeneous, and dyna...
The solar corona is heated to million degrees and information about the temperature structure is a k...
In this Licentiate thesis I review the properties of the solar atmosphere and the diagnostic value o...
The solar corona, the outer atmosphere of the Sun, is heated to millions of Kelvin. This is several ...
The Sun is the only star that we can spatially resolve and it can be regarded as a fundamental plasm...
The Sun and Sun-like stars commonly host the multi-million-K corona and the 10,000-K chromosphere. B...
The solar corona has a temperature of order 1 MK, which is almost 200 times the temperature of the u...
[1] The solar wind has been measured directly from 0.3 AU outward, and the Sun’s atmosphere has been...
International audienceThe issue of relevant scales involved in the heating of the solar atmosphere i...
The solar corona, the tenuous outer atmosphere of the Sun, is orders of magnitude hotter than the so...
Context: The radiative losses in the solar chromosphere vary from 4 kW m−2 in the quiet Sun, to 20 k...
In recent papers by Priest et al., the nature of the coronal heating mechanism in the large-scale so...
The Sun’s outer coronal layer exists at a temperature of millions of kelvins, much hotter than the s...
The identification of small-scale 3-D heating events in numerical simulations brought us a step clos...
While our Sun may appear boring at first glance, the solar corona, the outermost layer of the Sun's ...
The atmosphere of the Sun is envisioned as composed of inherently complex, non-homogeneous, and dyna...
The solar corona is heated to million degrees and information about the temperature structure is a k...
In this Licentiate thesis I review the properties of the solar atmosphere and the diagnostic value o...
The solar corona, the outer atmosphere of the Sun, is heated to millions of Kelvin. This is several ...
The Sun is the only star that we can spatially resolve and it can be regarded as a fundamental plasm...
The Sun and Sun-like stars commonly host the multi-million-K corona and the 10,000-K chromosphere. B...
The solar corona has a temperature of order 1 MK, which is almost 200 times the temperature of the u...
[1] The solar wind has been measured directly from 0.3 AU outward, and the Sun’s atmosphere has been...
International audienceThe issue of relevant scales involved in the heating of the solar atmosphere i...
The solar corona, the tenuous outer atmosphere of the Sun, is orders of magnitude hotter than the so...
Context: The radiative losses in the solar chromosphere vary from 4 kW m−2 in the quiet Sun, to 20 k...
In recent papers by Priest et al., the nature of the coronal heating mechanism in the large-scale so...