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School of Physical and Chemical Sciences

Debora Sijacki (Cambridge)

When: Friday, March 22, 2024, 2:30 PM - 3:30 PM
Where: GO Jones 610

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Our Universe in a supercomputer 

Cosmological simulations of galaxy and structure formation have undergone 
rapid development over the last decade and this progress is currently 
accelerating. The methodology evolved from purely gravitational computations 
of large scale structure to full hydrodynamical simulations which include a 
plethora of complex baryonic physical processes. Recent successes of these simulations 
have been impressive, obtaining models of present day galaxies with a 
morphological mix in broad accord with observation, which has been a long 
standing goal for more than 20 years. 

In this talk I will review the state-of-the-art of cosmological simulations, 
and future prospects of moving towards ab-initio simulations. Specifically, I 
will discuss our development of novel algorithms that can extend 
the dynamical range of simulations at a modest computational cost, not only to 
track the currently implemented physics of galaxy formation more accurately, 
but also to incorporate crucial physical processes that have been so far 
neglected due to their complexity. I will highlight several examples of such 
processes ranging from the smallest to the largest scales in the Universe and 
present an outlook towards the next generation of simulation models with the 
aim to tackle some of the most pressing astrophysical questions.

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