International Conference on Gravitational Physics and Relativity (ICGPR - 26)

This track will explore the fundamental principles of gravitational physics, including the historical development of gravitational theories. Discussions will focus on the mathematical formulations and conceptual frameworks that underpin our understanding of gravity.

This session will delve into the intricacies of general relativity, examining both theoretical advancements and practical applications. Participants will present recent findings that enhance our comprehension of spacetime and gravitational interactions.

This track will focus on the formation, properties, and observational signatures of black holes. Researchers will discuss the latest models and simulations that shed light on the nature of these enigmatic objects.

This session will cover the detection of gravitational waves and their significance in modern astrophysics. Presentations will highlight recent discoveries and the implications for our understanding of cosmic events.

This track will address the large-scale structure of the universe and the role of gravitational physics in cosmological models. Discussions will include the implications of dark energy and matter in shaping cosmic evolution.

This session will investigate the effects of spacetime curvature on physical phenomena. Researchers will present theoretical and experimental studies that explore the implications of curvature in various contexts.

This track will focus on the intersection of relativity and astrophysics, examining phenomena such as relativistic jets and the behavior of matter in strong gravitational fields. Participants will share observational data and theoretical insights.

This session will explore the dynamics of orbits in the presence of strong gravitational fields, including those near compact objects. Researchers will discuss numerical simulations and analytical approaches to understanding orbital behavior.

This track will cover the principles and applications of gravitational lensing in astrophysics. Presentations will highlight how lensing can be used to study distant galaxies and the distribution of dark matter.

This session will focus on experimental approaches to testing the predictions of general relativity. Researchers will present innovative methodologies and results that challenge or confirm established theories.

This track will delve into the computational methods used in numerical relativity to simulate gravitational phenomena. Discussions will include advancements in algorithms and their applications to complex astrophysical scenarios.