Antoine Dierckx
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PhD Candidate in Theoretical Physics

Covariant loop quantum gravity,
spinfoam cosmology,
and phenomenology of primordial black holes.

arXiv | ORCiD | iNSPIRE HEP

Recent Releases

New Paper

Signatures of LQG in PBH cosmologies

In collaboration with F. Vidotto & S. Clesse.

Exploring the phenomenological signatures of Loop Quantum Gravity in the context of Primordial Black Hole cosmologies.


Read on arXiv ➔

New Code

Framework pbh-rem

Developed in Mathematica.

Computational framework to evaluate phenomenological constraints on Primordial Black Holes with stable remnants (Planckian relics and Memory Burden effects).


Read the blog post ➔


Research Focus

Primordial Black Holes & Remnants

Studying the phenomenological consequences of stabilization mechanisms in PBH evaporation, focusing on Planckian relics within Loop Quantum Gravity and macroscopic remnants induced by the Memory Burden effect.

Spinfoam Numerics & Cosmology

Developing numerical and computational tools to evaluate spin foam amplitudes, with a specific application to structural transitions in spinfoam cosmology.


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