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Computational black holes

Research introduction

We have recently developed Themis,  a modular and extensible parameter estimation framework for the Event Horizon Telescope. Themis is used throughout the collaboration to reconstruct black hole images, but also to apply a large number of physical and geometric models to very long baseline interferometry data.

We have a strong background in utilising dynamic spacetime codes such as the Einstein toolkit to model mergers of compact objects like black holes or neutron stars and to compute the gravitational waves emitted from first principle. 

 

Dynamic spacetime codes are also used to simulate the challenging astrophysical conditions of binary black holes that are accumulating magnetised turbulent gas.

 

       

Videos & podcasts

Visual content that explains some of the research topics within astronomy, astrophysics and gravity.

Meet Roman Gold

  • Assistant professor at CP3-Origins at the Faculty of Science since 2020
  • PhD in Physics from Friedrich Schiller University Jena, Germany
  • Main research interests: gravitational waves, Event Horizon Telescope, general relativistic magnetohydrodynamics, a.o.

SDU's research profile

Last Updated 12.07.2024