Skip to Content
Skip to main content
LOGO(small) - Queen's University Belfast
  • Our facebook
  • Our twitter
  • Our
  • Our
SEARCH SEARCH
LOGO(large) - Queen's University Belfast

School of

Mathematics and Physics

  • Home
  • Study
    • Undergraduate Maths
    • Undergraduate Physics
    • Postgraduate Taught
    • Postgraduate Research
    • International
    • Student Handbook
    • Visiting Students
  • Research
    • Research Centres
    • Our researchers
    • Find a PhD Supervisor
    • PhD Research Students
  • International
  • Business / Careers
  • Discover
    • About the School
    • Gender Equality
    • Outreach
    • Green Impact
    • Safe Harbour Scheme
  • Connect
    • Staff
    • Get in touch
  • News
    • News Archive
  • Events
  • Home
  • Study
    • Undergraduate Maths
    • Undergraduate Physics
    • Postgraduate Taught
    • Postgraduate Research
    • International
    • Student Handbook
    • Visiting Students
  • Research
    • Research Centres
    • Our researchers
    • Find a PhD Supervisor
    • PhD Research Students
  • International
  • Business / Careers
  • Discover
    • About the School
    • Gender Equality
    • Outreach
    • Green Impact
    • Safe Harbour Scheme
  • Connect
    • Staff
    • Get in touch
  • News
    • News Archive
  • Events
  • Our facebook
  • Our twitter
  • Our
  • Home
  • School of Mathematics and Physics
  • Research
  • PhD Research Students
  • Christopher Dillon - Student Profile
In This Section

Christopher Dillon - Student Profile

PhD student

Christopher Dillon

Current research project

Solar Physics with Biomedical Applications: Revealing the hidden science of the Sun

I study nanoflares which are individually low energy flare events, (around a billionth that of a larger flare) but they occur much more frequently. Theoretically, hundreds or even thousands of nanoflares could be occurring per second over an entire stellar surface. This means nanoflares are capable of being a major component of the solar energy budget and are often touted as a possible answer to the coronal heating mystery. And nanoflares are mysterious - Due to their individually low energy, they're not possible to observe directly. My work involves statistical studies of quiet solar (and more recently stellar) data, to extract any underlying signal due to the multitude of nanoflares therein. These signals can then be compared to simulations, to try and constrain the nanoflaring parameters in the sun and in other stars. I also adapt these techniques to analyse and enhance low-intensity signals for use in bio-marker imaging applications with Randox Laboratories.

Research interests

  • Nanoflares

  • Stellar Activity

  • Biomedical Applications

PURE Page

 

PhD Research Students
  • PhD Research Students
Queen's University Belfast - Logo (small)
Contact Us

School of Mathematics and Physics

Main Physics Building
University Road
Belfast
BT7 1NN

GET DIRECTIONS

General School Enquiries:

E-mail: mp@qub.ac.uk

Telephone: +44 (0)28 9097 1386/5293

Quick Links

  • Home
  • Study
  • Careers
  • Research

 

© Queen's University Belfast 2021
Privacy and cookies
Website accessibility
Freedom of information
Modern slavery statement
Equality, Diversity and Inclusion