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GREA and Dark Energy: A holographic dual

Published 24 Nov 2025 in gr-qc, astro-ph.CO, and hep-th | (2511.19546v1)

Abstract: The nature of the cosmological constant is a mystery. We don't understand its quantum origin but we associate it with the actual acceleration of the universe because it is the simplest description we had until recently of the present cosmological observations. However, this may change with the next generation of experiments. If we can convince ourselves that the cosmic acceleration is not due to a constant, this would open up new fascinating avenues. By exploring the simplest cosmological model in the bulk, that of an empty and flat space with a cosmological constant $Λ$, we find that its holographic dual makes sense as a theory of fundamental quantum degrees of freedom at the boundary. Moreover, we find that an observer in the bulk, making long-range (electromagnetic and gravitational) observations, cannot distinguish the acceleration induced by the cosmological constant $Λ$ from that induced by the thermodynamic properties of the boundary, the de Sitter horizon. By including matter in the bulk we extend this holographic principle to GREA, where the quantum d.o.f. associated with the evolving boundary of the causal horizon induces an entropic acceleration that varies in time. Future observations will determine whether our causal horizon is responsible for the present acceleration and whether our universe will end in de Sitter or Minkowski.

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