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Third-year B.Sc. student in Physics with a division in Climate-Atmosphere-Oceanography at the Hebrew University of Jerusalem. Studing non-local aerosol-cloud interactions
My research focuses on using climate models to better understand the atmospheres of planets in our Solar System and exoplanets. Previously, I used convection resolving models to study hydrogen dominated atmospheres.
My research focuses on the influence of aerosol om rainfall patterns in areas undergoing convective cloud seeding experiments. I utilize WRF model to simulate cloud dynamics and explore these interactions.
Bachelor's in physics at the Hebrew University of Jerusalem (graduated in 2023). Currently studying anthropogenic-driven changes in precipitation in the Middle East using single forcing large ensemble simulations.
BSc in physics from the Hebrew University of Jerusalem. Studing relations between aerosol-cloud interactions and sea surface temperature changes using km-scale RCE simulations.
The fascination with atmospheric aerosols has led me to clouds, which partner with aerosols to weave various effects on the atmosphere. Hence, my current research revolves around aerosol-cloud interactions (ACI) within the paradigm of radiative-convective equilibrium (RCE).
B.Sc graduate in Earth Sciences, specializing in Climate-Atmosphere-Oceanography, and Environmental Science, through a dual teaching program at the Hebrew University.
