What question did this study set out to answer?

The aim is to resolve the cosmological constant problem by reinterpreting intergalactic voids.

February 10, 2026Open Access

A Solution to the Cosmological Constant Problem

Puntos clave

The aim is to resolve the cosmological constant problem by reinterpreting intergalactic voids.
Introduced the concept of microscopic white holes as quanta of cosmic vacuum.
Analyzed the structural separation of spacetime within galaxies versus intergalactic voids.
Predicted effects such as attenuation of gamma rays and modifications to the Casimir force.
Proposed extra attenuation of TeV gamma rays from distant astronomical sources.
Predicted a sub-percent change in the Casimir force at specific scales.

Resumen

We propose that the apparent “empty” intergalactic voids are not a smooth Einsteinian spacetime with a quantum-field vacuum, but a granular lattice of microscopic white holes (MWs) – quanta of pure cosmic vacuum – each formed by the superposition of three mass-branes and stabilized by three contracted temporal strings. Within galaxies (Pattern P1), standard GR + QFT + Standard Model remain valid; the “failures” of ΛCDM arise when those theories are forced to describe the P2 domain. This structural separation naturally explains the absence of particle dark matter and predicts two observable consequences: 1) a small, distance-dependent extra attenuation of TeV γ-rays from distant blazars/GRBs, and 2) a sub-percent modification of the Casimir force at 100 nm–1 µm scales. Both effects provide laboratory and astrophysical tests of the granular vacuum hypothesis.

Leer artículo completoexternamente

Me gusta

Guardar

Ver artículo completo