The meeting has a comprehensive scope, covering topics related to classical and quantum gravity, mathematical and applied relativity, gravitational-wave instrumentation and data analysis, multimessenger astronomy, relativistic astrophysics and cosmology, as well as education, outreach and community building in support of these areas. Meeting sessions will grouped into the following topics, which will interpreted broadly.
- A1: Classical GR: Theoretical developments
- A2: Classical GR: Mathematical developments
- A3: Alternative and modified theories of gravity
- B1: Relativistic astrophysics
- B2: Numerical relativity
- B3: Approximations, perturbation theory, and their applications
- B4: Cosmology: Theory and observations (including gravitational waves)
- C1: Gravitational wave astronomy through pulsar timing
- C2: Terrestrial gravitational wave astronomy: searches, data analysis and parameter estimation
- C3: Progress and challenges in terrestrial detector instrumentation
- C4: Concept and research towards next-generation terrestrial detectors
- C5: Space-based detectors
- C6: Gravitational waves and fundamental physics
- C7: Multi-messenger astronomy of gravitational wave sources
- C8: Building the community: education, outreach, DEI and career development
- C9: Experimental gravitation
- C10: Experimental tests of the nature of compact objects
- D1: Loop quantum gravity and spin foams
- D2: Gravitational aspects of string theory
- D3: Causal sets, causal dynamical triangulations, non-commutative geometry, asymptotic safety, and other approaches to quantum gravity
- D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology, and analogue models