Add to ORKGAll theories that attempt to explain the high temperatures observed in the solar corona are based on short bursts of energy release. The intensities and velocities measured in the core of an active, however, can be steady over many hours of observation. One heating scenario that has been proposed to reconcile such observations with models is the "long nanoflare storm," where short duration heating events occur infrequently on many sub-resolutions strands. In this Letter, we examine the emission measure distribution predicted for such a heating scenario by modeling an arcade of strands in an active region core. Comparisons of the computed emission measure distributions with recent observations indicate that that the long nanoflare storm scen...
Context.This paper addresses the impulsive heating of very diffuse coronal loops, such as can occur ...
This work was supported in part by the Big-Data Private-Cloud Research Cyberinfrastructure MRI-award...
In this paper, we examine 15 different active regions (ARs) observed with the Solar Dynamics Observa...
Observational measurements of active region emission measures contain clues to the time dependence o...
The temperature dependence of the emission measure (EM) in the core of active regions coronal loops ...
Context. Recent analysis of the EUV emission of the solar Active Region observed with TRACE (Sakamot...
The properties expected of “hot” non-flaring plasmas due to nanoflare heating in active regions are ...
The properties that are expected of “hot” non-flaring plasmas due to nanoflare heating in active reg...
The energy input into the lower solar corona by flare evaporation events has been modeled according ...
Coronal loops form the basic building blocks of the magnetically closed solar corona yet much is sti...
Context. It is thought likely that vast numbers of nanoflares are responsible for the corona having ...
Despite its prediction over two decades ago, the detection of faint, high-temperature (\hot") emissi...
One of the great mysteries of coronal physics that has come to light in the last few years is the di...
Context. Nanoscale events in cooperation with steady heating from a slow heating mechanism, such as ...
Straightened cylindrical models of coronal loops have been standard for decades, and shown to suppor...
Context.This paper addresses the impulsive heating of very diffuse coronal loops, such as can occur ...
This work was supported in part by the Big-Data Private-Cloud Research Cyberinfrastructure MRI-award...
In this paper, we examine 15 different active regions (ARs) observed with the Solar Dynamics Observa...
Observational measurements of active region emission measures contain clues to the time dependence o...
The temperature dependence of the emission measure (EM) in the core of active regions coronal loops ...
Context. Recent analysis of the EUV emission of the solar Active Region observed with TRACE (Sakamot...
The properties expected of “hot” non-flaring plasmas due to nanoflare heating in active regions are ...
The properties that are expected of “hot” non-flaring plasmas due to nanoflare heating in active reg...
The energy input into the lower solar corona by flare evaporation events has been modeled according ...
Coronal loops form the basic building blocks of the magnetically closed solar corona yet much is sti...
Context. It is thought likely that vast numbers of nanoflares are responsible for the corona having ...
Despite its prediction over two decades ago, the detection of faint, high-temperature (\hot") emissi...
One of the great mysteries of coronal physics that has come to light in the last few years is the di...
Context. Nanoscale events in cooperation with steady heating from a slow heating mechanism, such as ...
Straightened cylindrical models of coronal loops have been standard for decades, and shown to suppor...
Context.This paper addresses the impulsive heating of very diffuse coronal loops, such as can occur ...
This work was supported in part by the Big-Data Private-Cloud Research Cyberinfrastructure MRI-award...
In this paper, we examine 15 different active regions (ARs) observed with the Solar Dynamics Observa...