Investigating Our Dynamic Solar Corona From Near Sun To 1 AU: STEREO observations of coronal mass ejections; 1D hydrodynamic an,Used

Investigating Our Dynamic Solar Corona From Near Sun To 1 AU: STEREO observations of coronal mass ejections; 1D hydrodynamic an,Used

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Brand: LAP Lambert Academic Publishing
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This thesis explores two area of high interest in the field of solar physics: the propagation of CMEs; and the heating and thermal evolution of coronal loops. In the study of coronal mas ejections, the NASA satellite STEREO is used to observe CMEs as they propagate through the heliosphere and into interplanetary space. Two separate techniques are employed to derive the threedimensional position angles and kinematic profiles of three separate CME events. The study of coronal loops consists of two parts: hydrodynamics and hydrostatics. A 1D hydrodynamic Lagrange remap code is employed to numerically model a coronal loop split into many subresolution strands. Each strand is heated impulsively, by localised energy bursts, and the strands are then amalgamated to form a global loop system. A phase plane analysis is introduced to study the temperature structure along 1D hydrostatic coronal loops, using a new fourrange optically thin radiative loss function, to analytically solve the thermal equilibrium equation and investigate the resulting solution space.

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