Event Horizon Review
A journal dedicated to the analysis of black holes and high-energy astrophysics
A journal dedicated to the analysis of black holes and high-energy astrophysics
Expert analysis of the latest discoveries in black hole physics and their implications for modern astrophysics.
In-depth examination of observational data from telescopes and gravitational wave detectors worldwide.
Conversations with leading researchers in astrophysics, relativity, and quantum mechanics.
Exploration of theoretical frameworks addressing black hole thermodynamics, information paradoxes, and singularity physics.
Black holes represent one of the most profound predictions of Einstein's general theory of relativity. These regions of spacetime exhibit gravitational fields so intense that nothing, not even light, can escape from within their event horizons.
Our research coverage spans multiple domains: stellar-mass black holes formed through supernova collapse, supermassive black holes residing at galactic centers, the quantum thermodynamics governing Hawking radiation, and the gravitational wave signatures produced during black hole mergers.
Event Horizon Review bridges theoretical physics with observational astronomy, providing analytical perspectives on discoveries from the Event Horizon Telescope, LIGO, Virgo, and space-based observatories.
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