Scientific Sessions
- Multi-Messenger Astronomy
- Dark Matter & Energy Probes
- Galaxy Formation and Evolution Early Universe and Cosmic Inflation
- Computational Cosmology
- Large-Scale Structure of the Universe
- Cosmic Microwave Background Studies
- Primordial Black Holes and Dark Matter
- Gravitational Physics and Lensing
- General Relativity and Differential Geometry
- Modified Gravity Theories
- Alternative Theories of Gravity
- Quantum Gravity & Wave Particle Duality
- Tests of Einstein’s Equations in Extreme Environments
- Gravitational Wave Sources and Detection
- Black Hole Dynamics and Mergers
- High Energy Nuclear and Particle Physics
- Relativistic Astrophysics
- Gamma-Ray & Radio Astronomy
- Cosmic Rays & Magnetic Fields
- Neutrino and Quantum Cosmology
- High-Energy & Particles Astrophysics
- Cosmic Neutrinos and High-Energy Messengers
- Ultra-High-Energy Cosmic Rays
- Particle Acceleration in Astrophysical Jets
- Solar and Stellar Physics
- Planetary Science, Earth Science and Geoscience
- Stellar Evolution and Supernova Physics
- Astronomy & Space Science
- Optical Astronomy and Theoretical Physics
- Aerospace Science and Engineering
- Optoelectronics, Photonics and Laser Physics
- Exoplanets, Habitability & AI
- Astroinformatics and Machine Learning in Astronomy
- Black Holes, Neutron Stars & AI Modeling
- AI for Space Telescopes & Sky Surveys
- Numerical Relativity & AI Acceleration
- Testing Gravity: From General Relativity to Quantum Gravity
- Interdisciplinary AI in Fundamental Physics
- Cosmology in the Era of Big Data
- Dark Matter & Dark Energy Exploration with AI
- Comets, Asteroids, Dust Galaxies and Cosmology
- Remote Sensing, Earth Observation and Telemetry
- Satellite Systems and Space Missions
- White Dwarfs, Neutron Stars and Pulsars
- Satellite Communications
- Interstellar and Helispheric Physics
- Nuclear and Applied Science
- Machine Learning for Astrophysics