Research Paper#Atmospheric Physics, Cloud Physics, Volcanic Ash Dynamics🔬 ResearchAnalyzed: Jan 3, 2026 16:42
Electrostatic Enhancement of Particle Collisions in Atmospheric Flows
Published:Dec 30, 2025 23:21
•1 min read
•ArXiv
Analysis
This paper investigates how electrostatic forces, arising from charged particles in atmospheric flows, can surprisingly enhance collision rates. It challenges the intuitive notion that like charges always repel and inhibit collisions, demonstrating that for specific charge and size combinations, these forces can actually promote particle aggregation, which is crucial for understanding cloud formation and volcanic ash dynamics. The study's focus on finite particle size and the interplay of hydrodynamic and electrostatic forces provides a more realistic model than point-charge approximations.
Key Takeaways
- •Electrostatic forces can enhance particle collision rates in atmospheric flows, contrary to the expectation that like charges always repel.
- •The interplay between hydrodynamic and electrostatic forces creates complex particle trajectories and collision dynamics.
- •Collision efficiency exhibits nonmonotonic behavior with respect to particle size ratio in the presence of electrostatic forces.
- •These findings are relevant to cloud microphysical processes and volcanic ash aggregation.
Reference
“For certain combinations of charge and size, the interplay between hydrodynamic and electrostatic forces creates strong radially inward particle relative velocities that substantially alter particle pair dynamics and modify the conditions required for contact.”