Relativistic Astrophysics studies astrophysical systems where relativistic effects are essential for accurate description. These include environments with strong gravitational fields or high velocities. Relativistic astrophysics applies general relativity to phenomena such as black holes, neutron stars, and gravitational waves. It explains time dilation, gravitational redshift, and spacetime curvature in astrophysical contexts. Observations from telescopes and detectors validate relativistic predictions. This field bridges theoretical physics and observational astronomy. Relativistic astrophysics has grown rapidly with the detection of gravitational waves. It provides insight into fundamental physics through natural cosmic laboratories. This discipline is essential for understanding the universe’s most extreme objects.
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Vladimir Chigrinov, Hong Kong University of Science and Technology, Hong Kong
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Alexander Unzicker, Pestalozzi Gymnasium Munchen, Germany
Title : Global photochemical model CHARM-DE of the earth’s atmosphere for altitudes 0-130 km
Alexei Krivolutsky, Central Aerological Observatory (CAO), Russian Federation
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Amir Sohail, COMSATS University Islamabad, Pakistan
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Yarub Al Douri, European Academy of Sciences, Belgium
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Thomas J Webster, Brown University, United States