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Position
Associate Professor
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Credentials
PhD Applied Mathematics, Columbia University
Contact
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My research is in the broad area of applied nonlinear dynamics and incorporates both computation and analysis. Much of my work concerns fluid dynamics, but I also study simpler ordinary and partial differential equations. Recently I have been developing ways to use polynomial optimization to study dynamics, for instance to estimate time averages and other properties of attractors.
Interests
- nonlinear dynamics
- fluid dynamics
- computational methods
- variational methods
Courses
- Fall 2024:
- Spring 2025: Ìý Ìý
- Summer 2025:
Selected Publications
- A. Chernyavsky, J. Bramburger, G. Fantuzzi, D. Goluskin. Convex relaxations of integral variational problems: pointwise dual relaxation and sum-of-squares optimization. SIAM J. Opt. 33, 481-512. 2023.
- S. Kazemi, R. Ostilla-Mónico, D. Goluskin. Transition between boundary-limited scaling and mixing-length scaling of turbulent transport in internally heated convection. Phys. Rev. Lett. 129, 024501. 2022.
- F. Fuentes, D. Goluskin, S. Chernyshenko. Global stability of fluid flows despite transient growth of energy. Phys. Rev. Lett. 128, 204502. 2022.
- B. Wen, D. Goluskin, C. R. Doering. Steady Rayleigh-Bénard convection between no-slip boundaries. J. Fluid Mech. Rapids 933, R4. 2022.
- D. Goluskin, G. Fantuzzi. Bounds on mean energy in the Kuramoto-Sivashinsky equation computed using semidefinite programming. Nonlinearity 32, 1705-1730. 2019.