CORDIS Project
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This research focuses on understanding black holes through the lens of string theory, particularly the microstate geometries that challenge existing theories. It aims to explore how these structures interact with matter and preserve quantum information, potentially resolving fundamental conflicts in physics.
The detection of black-hole mergers in 2015 was a spectacular confirmation of General Relativity (GR).
Yet, it is also in black holes that the fundamental conflict between GR and quantum mechanics (QM) is most acute.
Black holes are known to have a vast entropy.
Consistency with QM requires that the microstates giving rise to this entropy must be accessible at the horizon scale.
However, GR coupled to field theory is incapable of supporting this horizon-scale microstructure!
My work has shown…
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