... It is based on the drift diffusion model and considers a multiplicity of additional physical effects, like magneticfields, optical radiation, temperature influences and kinetics of deep places of malfunction. ...
... It uses the FDTD algorithm, which is ideal for investigating electric and magneticfields, in and around composite objects of comparable size to to the electromagnetic wavelength. ...
... Explanation: Awash in a sea of plasma and anchored in magneticfields , sunspots are planet-sized, dark islands in the solar ... mass ejection erupted from AR1520 on July 12, releasing some of the energy stored in the region's twisted magneticfields ...
... But, this complete solar magneticfield flip was actually anticipated. ... of relatively cool dense plasma were lofted along looping magneticfield lines extending outward about 30 times the diameter of ...
... Unpredictably, regions of strong and tangled magneticfields arise, causing sunspots and bright active regions . ... The Sun's surface bubbles as hot hydrogen gas streams along looping magneticfields. ...
... impacts of cosmic bodies, inversions of the magneticfield, climate change, etc ... that such superflares may occur in magneticfields actually observed on G dwarfs ... provides for regular changes of magneticfield generation in the solar convection ...
... The surface of the quiet Sun is a maze of hot gas and flowing magneticfields . ... When two regions of high magneticfield strength approach each other, they typically pass uneventfully. ...
... Explanation: At the Sun's surface, sunspots are known to be dark, planet-sized regions of intense magneticfields. ... material toward the spot and prevents the concentrated magneticfields from flying apart, like repelling poles of iron magnets ...