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March 27, 2026
Open Access
Cloud Microphysics as a Universal Condensation Transition: A UCP-Based Free-Energy Framework for Droplet and Ice Formation
AA
Atanas Georgiev Aleksandrov
Key Points
The research aims to investigate the fundamental processes behind droplet and ice formation in clouds using a thermodynamic framework.
Developed a free-energy framework based on the Universal Condensation Principle.
Analyzed the microphysical properties of cloud particles.
Examined the thermodynamic interactions during condensation and ice formation.
Established a universal model that applies to both droplet and ice formation.
Identified key thermodynamic variables that influence cloud microphysics.
Showed that the framework can predict condensation behavior under various atmospheric conditions.
Abstract
Universal Condensation Principle
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Atanas Georgiev Aleksandrov (Wed,) studied this question.
synapsesocial.com/papers/69c6210b15a0a509bde1996d
https://doi.org/https://doi.org/10.5281/zenodo.19217135
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Cloud Microphysics as a Universal Condensation Transition: A UCP-Based Free-Energy Framework for Droplet and Ice Formation | Synapse