About Event Horizon Review
Bridging theoretical physics and observational astronomy
Bridging theoretical physics and observational astronomy
Event Horizon Review was established to provide comprehensive, analytical coverage of black hole physics and related phenomena in modern astrophysics. The publication serves as an interdisciplinary platform connecting general relativity, quantum mechanics, and observational astronomy.
Black holes occupy a unique position at the intersection of theoretical physics and empirical science. From Schwarzschild's first exact solution to Einstein's field equations to the recent direct imaging of supermassive black hole shadows, these objects continue to challenge and refine our understanding of spacetime, gravity, and quantum theory.
The journal maintains strict editorial standards, ensuring all published content undergoes review by specialists in astrophysics, theoretical physics, and related fields. Articles synthesize current research, analyze observational data, and explore theoretical implications of black hole phenomena.
Theoretical physicist specializing in black hole thermodynamics and quantum information theory. Previously conducted research at CERN and published extensively on entropy bounds in gravitational systems.
Observational astronomer with expertise in X-ray binary systems and accretion disk physics. Contributed to analysis of data from Chandra, XMM-Newton, and NuSTAR space telescopes.
Researcher focusing on numerical relativity and gravitational wave physics. Involved in computational modeling of black hole mergers and collaboration with LIGO Scientific Collaboration.
Cosmologist investigating primordial black holes and their role in dark matter theories. Research includes constraints from gravitational lensing and cosmic microwave background observations.
Event Horizon Review established in Geneva, Switzerland, with initial focus on synthesizing research from gravitational wave astronomy and Event Horizon Telescope observations.
Published comprehensive analytical coverage of the M87* black hole imaging, examining observational techniques, theoretical predictions, and implications for strong-field gravity tests.
Expanded editorial board to include specialists in quantum mechanics, cosmology, and computational astrophysics, broadening coverage of black hole-related phenomena.
Initiated dedicated section on gravitational wave astronomy, analyzing detections from LIGO, Virgo, and KAGRA observatories and their astrophysical implications.
Reached readership across five continents, establishing partnerships with research institutions and contributing to public understanding of black hole physics.
Continues to provide analytical perspectives on emerging discoveries, including supermassive black hole demographics, intermediate-mass black hole searches, and quantum aspects of event horizons.