SCOPE OF THE CONFERENCE

ICAP 2025 covers a wide range of contemporary and emerging topics in physics, including but not limited to

Theoretical, Mathematical, and High-Energy Physics

Quantum field theory, gauge symmetries, and unified models
Precision tests of the Standard Model
Beyond the Standard Model physics and collider phenomenology
String theory, supersymmetry, and quantum gravity
Mathematical foundations and computational modeling in theoretical physics

Nuclear, Particle, and Reactor Physics

Nuclear structure, reactions, and nuclear astrophysics
Neutrino physics, detectors, and rare event searches
Particle detectors, instrumentation, and accelerator technology
Reactor physics, nuclear energy technologies, and safety modeling

Photonics, Optics, and Laser Science

Nonlinear optics, quantum optics, and optoelectronics
Photonic materials, devices, and integrated optics
High-intensity laser-matter interaction and ultrafast optics
Laser diagnostics, spectroscopy, and applications in science and medicine

Nanoscience, Microelectronics, and Quantum Technologies

Nanostructures, nanofabrication, and quantum confinement
Nanoscale measurement techniques
Semiconductor physics, micro/nanoelectronic devices, and organic electronics
Quantum computing, simulation, and quantum information science

Atomic, Molecular, and Plasma Physics

Cold atoms, Bose-Einstein condensates, and quantum gases
Atomic collisions, molecular dynamics, and precision spectroscopy
Plasma physics, fusion technology, and astrophysical plasmas

Astrophysics, Cosmology, and Space Physics

Black holes, compact objects, and gravitational waves
Dark matter, dark energy, cosmic inflation, and large-scale structure
Stellar evolution, cosmological observations, and space plasmas
Multi-messenger astronomy and observational instrumentation

Earth, Atmospheric, and Environmental Physics

Atmospheric dynamics, meteorology, and geophysics
Climate modeling, radiation transport, and environmental monitoring
Remote sensing, earth observation, and sustainable technologies

Computational Physics

Modeling and simulation of complex physical systems
High-performance computing and numerical methods
Machine learning and AI applications in physics research

Medical, Health and Biophysics

Medical physics, health physics, and biomedical imaging
Biophysics of cells, tissues, and molecular systems
Nonlinear bio-optics
Bio-heat and hemodynamics

Physics Education, Outreach, and Policy

Innovative pedagogy and curriculum development in physics
Digital tools, simulations, and e-learning platforms
Public engagement, science outreach, and research policy frameworks