Abstract

Recent observations from the Hinode and Solar Dynamics Observatory spacecraft have provided major advances in understanding the heating of solar active regions (ARs). For ARs comprising many magnetic strands or sub-loops heated by small, impulsive events (nanoflares), it is suggested that (i) the time between individual nanoflares in a magnetic strand is 500-2000 s, (ii) a weak 'hot' component (more than 10(6.6) K) is present, and (iii) nanoflare energies may be as low as a few 10(23) ergs. These imply small heating events in a stressed coronal magnetic field, where the time between individual nanoflares on a strand is of order the cooling time. Modelling suggests that the observed properties are incompatible with nanoflare models that require long energy build-up (over 10 s of thousands of seconds) and with steady heating.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Coronal Heating in Active Regions as a Function of Global Magnetic Variables
George H Fisher ... Alexei A Pevtsov
The Astrophysical Journal | VOL. 508
George H Fisher, et. al.George H Fisher ... Alexei A Pevtsov
01 Dec 1998
THE COLD SHOULDER: EMISSION MEASURE DISTRIBUTIONS OF ACTIVE REGION CORES
J T Schmelz ... S Pathak
The Astrophysical Journal | VOL. 756
J T Schmelz, et. al.J T Schmelz ... S Pathak
21 Aug 2012
Signatures of a nanoflare heated solar corona
G E Vekstein ... R Jain
Plasma Physics and Controlled Fusion | VOL. 45
G E Vekstein, et. al.G E Vekstein ... R Jain
26 Mar 2003
Dominance of Bursty over Steady Heating of the 4–8 MK Coronal Plasma in a Solar Active Region: Quantification Using Maps of Minimum, Maximum, and Average Brightness
Sanjiv K Tiwari ... Lucy A Wilkerson
The Astrophysical Journal | VOL. 942
Sanjiv K Tiwari, et. al.Sanjiv K Tiwari ... Lucy A Wilkerson
28 Dec 2022
View more papers

More From: Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences

Paper Title
Journal
Date
Author
Fluid-driven aseismic fault slip with permeability enhancement and dilatancy
Eric M Dunham
Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences | VOL. -
Eric M DunhamEric M Dunham
01 Jul 2024
Are maximum magnitudes of induced earthquakes controlled by pressure diffusion?
Cornelius Langenbruch ... Serge A Shapiro
Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences | VOL. -
Cornelius Langenbruch, et. al.Cornelius Langenbruch ... Serge A Shapiro
01 Jul 2024
Inferring maximum magnitudes from the ordered sequence of large earthquakes.
Ryan Schultz
Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences | VOL. 382
Ryan SchultzRyan Schultz
01 Jul 2024
Growth and stabilization of induced seismicity rates during long-term, low-pressure fluid injection.
James P Verdon ... Germán Rodríguez-Pradilla
Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences | VOL. 382
James P Verdon, et. al.James P Verdon ... Germán Rodríguez-Pradilla
01 Jul 2024
View more papers