Farhad Allian

Farhad Allian
The University of Sheffield | Sheffield · Department of Applied Mathematics

Doctor of Philosophy in Solar Physics

About

4
Publications
193
Reads
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12
Citations
Additional affiliations
October 2017 - present
The University of Sheffield
Position
  • PhD Student
Education
September 2017 - June 2021
The University of Sheffield
Field of study
  • Applied Mathematics
September 2012 - July 2017
University of Glasgow
Field of study
  • Physics with Astrophysics

Publications

Publications (4)
Article
Full-text available
We study intensity variations, as measured by the Atmospheric Imaging Assembly on board the Solar Dynamics Observatory, in a solar coronal arcade using a newly developed analysis procedure that employs spatio-temporal autocorrelations. We test our new procedure by studying large-amplitude oscillations excited by nearby flaring activity within a com...
Article
Full-text available
Context. Magnetic arcades in the solar atmosphere, or coronal loops, are common structures known to host magnetohydrodynamic (MHD) waves and oscillations. Of particular interest are the observed properties of transverse loop oscillations, such as their frequency and mode of oscillation, which have received significant attention in recent years beca...
Preprint
Full-text available
Magnetic arcades in the solar atmosphere, or coronal loops, are common structures known to host magnetohydrodynamic (MHD) waves and oscillations. Of particular interest are the observed properties of transverse loop oscillations, such as their frequency and mode of oscillation, which have received significant attention in recent years because of th...
Preprint
We study intensity variations, as measured by the Atmospheric Imaging Assembly (AIA) on board the Solar Dynamics Observatory (SDO), in a solar coronal arcade using a newly developed analysis procedure that employs spatio-temporal auto-correlations. We test our new procedure by studying large-amplitude oscillations excited by nearby flaring activity...

Projects

Project (1)
Project
To understand the nature of solar coronal loop oscillations.