EPS 290, Topics in Atmospheric Dynamics, Summer 2020

Overview

This course covers current and classic papers in atmospheric dynamics with an eye towards aiding students involved in graduate-level research projects.

Time

Wednesdays at 9:30

Location

377 McCone Hall

Syllabus

5/20, Rusen leads

• Thuburn and Efstathiou, Marginal stability of the convective boundary layer, JAS, 2019

5/27, by Nathaniel

• Practice talk

6/3, Katie leads

• McKim et al., Buoyancy-driven entrainment in dry thermals, QJRMS, 2020

6/10, Rusen leads

• Walker, Hays, and Kasting, A negative feedback mechanism for the long-term stabilization of Earth's surface temperature, JGR, 1981

6/17, Alex leads

• Zelinka et al., Causes of Higher Climate Sensitivity in CMIP6 Models, GRL, 2020

7/1, Qindan leads

• Renaud and Venaille, On the Holton-Lindzen-Plumb model for mean flow reversals in stratified fluids, QJRMS, 2020

7/8, Rusen leads

• Tennekes, A model for the dynamics of the inversion above a convective boundary layer, JAS, 1973

7/15, Alex leads

• Seeley and Jeevanjee, H2O windows and CO2 radiator fins: a clear-sky explanation for the peak in ECS, GRL, 2020

7/22, Leo leads

• Pinsky and Khain, Analytical investigation of the role of lateral mixing in the evolution of nonprecipitating cumulus. Part II: Dissolving stage, JAS, 2020

7/29, Katie leads

• Grabowski and Morrison, Do ultrafine cloud condensation nuclei invigorate deep convection?, JAS, 2020

8/5, Qindan leads

• Smith et al., North Atlantic climate far more predictable than models imply, Nature, 2020

8/12, Nathaniel leads

• Sherwood et al., An assessment of Earth's climate sensitivity using multiple lines of evidence, Rev Geo, 2020, sections 1 and 2

8/19, Nathaniel leads

• Sherwood et al., An assessment of Earth's climate sensitivity using multiple lines of evidence, Rev Geo, 2020, sections 3.3 and 6; Orloff and Bloom, Comparison of frequentist and Bayesian inference, MIT 18.05