Nonlocal thermal conduction in hydrodynamic loop flare models

A flare observed with the Hard X-Ray Imaging Spectrometer (HXIS) was studied during its rise to maximum temperature and X-ray emission rate. Two proximate flare loops, of lengths 2.8 x 109 cm and 1.1 x 10 j~ cm, rose to temperatures of 21.5 x 10 6 K and 30 x 10 6 K, respectively, in 30 s. Assuming e

Numerical simulation is made of the impulsive loop flare caused by transient heat conduction along the loop with an applied axial electric current. It is assumed that a segment near the top of the coronal loop is heated to above 107 K by a heat input that is small compared with the total flare ener

A systematic study of the effects of thermal conduction and radiation (Cox-Tucker type) on the dynamic response of a coronal loop is presented. The study is based on a one-fluid hydrodynamic description of a magnetic flux loop subject to a sudden localized heating, simulating the flare energy releas

Both quasiparticles and superconducting fluctuations contribute to the conductance of superconductors in the paraconductive regime slightly above the transition temperature. The fluctuation contribution consists of the Maki-Thompson correction, which results from the scattering of electrons by a sup