Thomas Tram

Postdoc, Aarhus Institute of Advanced Studies, Aarhus University, Denmark and Institute of Cosmology and Gravitation (ICG), Portsmouth, UK.

During his AIAS-COFUND junior fellowship postdoc Thomas Tram will be working on the project "Neutrino simulations under the spell of General Relativity".

Curriculum Vitae

Selected Publications

Contact information on Thomas Tram

Project description

In 1687 Isaac Newton published the Philosophiæ Naturalis Principia Mathematica that described both the laws of motion and the law of universal gravitation. The Principa thus laid the foundation of classical mechanics. Newtons theory was unchallenged until Albert Einstein published his theories of relativity a series of papers between 1905 and 1916. According to the Special and the General theory of relativity Newtons laws are only approximate and receive corrections when objects move at large velocity or are in the vicinity of strong gravitational fields.

In 1922, soon after the publication of the theory of General Relativity, Alexander Friedmann showed that viable models of the Universe were expanding in time. This was observationally confirmed by Edwin Hubble in 1929, and this marked the beginning of physical cosmology.

It may then come as a surprise that the theoretical predictions for the large scale structure that we observe in the Universe today are computed using Newtons laws and not Einsteins relativistic theory. Going beyond this Newtonian approximation, even in the presence of massive neutrinos, is precisely the objective of my research proposal.

Short bio

As a theoretical cosmologist I test the fundamental physical laws governing our Universe by comparing theoretical models to observations. The parameter space is multidimensional so inference relies on Monte Carlo methods. This necessitates fast model computations while the increasing fidelity of the data calls for high accuracy. I excel at developing fast and accurate numerical tools for model computations and data analysis.