Explores phase transitions in energy systems, including non-analytic behavior and the Ising model.
Explores phase transitions, phase diagrams, and the behavior of water.
Explores snow accumulation and melt in forests, emphasizing snow-vegetation interactions and their modeling.
Explores mass transfer coefficients in liquid and gas phases, with a focus on convective mass transfer around dissolving bubbles and experimental dynamics of granular systems.
Explores renormalization, scaling, critical points, exponents, and phase transitions in conformal field theory and quantum gravity.
Explores snowpack water balance, snowmelt, ablation, and energy-water balance link using degree day models.
Explores processes at the snow-atmosphere interface and extreme snow falls in the Swiss Alps.
Discusses phase transitions in thermodynamics, covering stability, latent heat, and phase diagrams.
Explores the connection between phase transitions in physics and computational problems, showcasing how insights from physics can inform algorithm design.
Covers atomic structure, thermodynamics, material properties, and ideal gas law.
