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---
title: Talks
layout: default
---
Check out our [YouTube channel](https://www.youtube.com/channel/UCMyg1o8DTxB2fFkuBe5bgtA)!
## 2022
- Wilhelmus, M.M., Lopez-Acosta, R., Hutchings, J., Bliss, A., []Bulletin of the Ocean Sciences Meeting,
- Gupta, M., Thompson A.F., Los Alamos National Laboratory: Climate, Ocean and Sea Ice Modeling (January 2022), Melting dynamics of Lagrangian sea-ice floes: ice/ocean coupling at the sub-mesoscales
## 2021
- Davis, A.D., Giannakis, D., Stechmann, S., and Stadler G., [American Geophysical Union](https://www.agu.org/Fall-Meeting), (Dec. 2021), Generalization of hydrodynamic sea ice dynamics using kinetic theory and the Boltzmann equation
- Lopez, R. and Wilhelmus, M.M., [Bulletin of the American Physical Society Division of Fluid Dynamics 74th Annual Meeting](https://meetings.aps.org/Meeting/DFD21/Session/F30.2), (Nov. 2021), Sea ice dispersion mirrors underlying submesoscale ocean currentsamid strong atmospheric forcing
- Denton, A.D. and Timmermans, M.-L., [Society for Industrial and Applied Mathematics Annual Meeting 2021](https://www.siam.org/Portals/0/Conferences/AN/AN21/SIAM_2021_PROGRAM_abstracts_V2_INTERACTIVE.PDF), (July 2021), Characterizing the Sea-Ice Floe Size Distribution
Across a Range of Settings from High-Resolution Optical Satellite Imagery
- Dinh H., Giannakis, D., Stadler, G., and Slawinska, J., [American Geophysical Union](https://www.agu.org/Fall-Meeting), (Dec. 2021), Machine Learning on Phase-Field Models of Sea Ice Fracture
- Davis, A.D., Giannakis, D., Stadler, G., Stechmann, S., and Manucharyan, G., [Scientific Computing Seminar](https://duscicomp.github.io/events/seminar_series/), Durham University (Feb. 2021), Super-parameterized numerical methods for the Boltzmann equation modeling Arctic sea ice dynamics
- Giannakis, D., Davis, A.D., Stadler, G., Stechmann, S., and Manucharyan, G., CalTech (Jan. 2021), Kinetic Theory for Superparameterization of Sea Ice Dynamics
- Manucharyan, G. E., Lopez-Acosta, R., and Martinez, M., (Feb. 2021) University of South Florida, College of Marine Science, "Emerging Arctic Ocean turbulence revealed by rotating sea ice fragments" <a href="https://www.youtube.com/watch?v=yto8WPoGNZc">[video]</a>
- Dinh, H., Giannakis, D., Stadler, G., Slawinska, J., [SIAM Annaual Meeting 2021](https://www.siam.org/conferences/cm/conference/an21), virtual meeting (July 2021), Machine learning on phase-field models of sea ice fracture
## 2020
- Davis, A.D., Giannakis, D., Stadler, G., Stechmann, S., and Manucharyan, G., American Geophysical Union (Dec. 2020), Super-parameterization of Lagrangian sea ice dynamics using the Boltzmann equation
<iframe width="1126" height="704" src="https://www.youtube.com/embed/CF5_fQ-V-oI" frameborder="0" allow="accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture" allowfullscreen></iframe>
- Davis, A.D., Center for Atmosphere and Ocean Science Seminar, NYU/Courant (Oct. 2020), <a href="https://github.com/SPIce-Team/spice-team.github.io/raw/master/files/DAVIS_CAOS_Seminar.pdf">Modeling emergent Arctic sea ice dynamics using small-scale discrete element methods within macro-scale equations</a>
- Manucharyan, G. E. and B. P. Montemuro, (Nov. 2020) University of Cambridge, British Antarctic Survey, "SubZero: Floe-Resolving Sea Ice Model" <a href="http://talks.cam.ac.uk/talk/index/150727">[abstract]</a>.