International Conference on Atmospheric Physics and Weather Phenomena (ICAPWP - 26)

This track focuses on the latest research and developments in atmospheric physics, emphasizing the fundamental principles that govern atmospheric behavior. Contributions may include theoretical studies, experimental investigations, and innovative modeling approaches.

This session will explore the complex processes governing cloud formation, evolution, and precipitation. Papers addressing microphysical interactions within clouds and their implications for weather phenomena are particularly welcome.

This track aims to discuss the mechanisms of radiative transfer and their impact on atmospheric processes. Contributions may include studies on radiation balance, energy exchange, and the role of aerosols in climate systems.

This session will delve into the characteristics of atmospheric turbulence and its effects on boundary layer processes. Research on observational techniques and modeling strategies to understand turbulence is encouraged.

This track will investigate the thermodynamic principles that underpin atmospheric processes and their role in energy balance. Papers that address the interactions between thermodynamics and weather systems are highly sought after.

This session will focus on the mechanisms of convection and their influence on weather patterns. Contributions may include observational studies, numerical simulations, and theoretical analyses of convective phenomena.

This track aims to explore the factors influencing atmospheric stability and the resulting circulation patterns. Research on the implications of stability for weather forecasting and climate variability is particularly relevant.

This session will address the dynamics of mesoscale meteorological phenomena and their impact on local weather events. Studies that utilize high-resolution models and observational data to analyze mesoscale processes are encouraged.

This track will investigate the physical principles governing wave propagation in the atmosphere, including gravity waves and Rossby waves. Contributions that explore the implications of wave dynamics for weather forecasting are welcome.

This session will focus on the mechanisms of precipitation formation and their hydrometeorological implications. Research on observational techniques and modeling approaches to understand precipitation variability is encouraged.

This track aims to explore the interactions between aerosols and climate systems, including their effects on radiative forcing and feedback mechanisms. Contributions that address the implications of aerosol dynamics for weather and climate variability are particularly welcome.