Wasilij Barsukow

Institut für Mathematik
Lehrstuhl für Mathematik VI
Universität Würzburg
Campus Hubland Nord
Emil-Fischer-Straße 40
97074 Würzburg

On leave at the University of Zurich with the DAAD PRIME Postdoctoral Fellowship.

E-Mail: w.barsukow@mathematik.uni-wuerzburg.de

Exercises for the lecture "Introduction to Conservation Laws" (WiSe 2015/16)

Exercises for the lecture "Introduction to Conservation Laws" (SoSe 2017)

Lecture notes on surface waves (SoSe 2016)
Lecture notes on vortex motion (SoSe 2016)

Schüler-Projekttage 2016
Schüler-Projekttage 2017

Unitag 2017

PhD Thesis

  • Wasilij Barsukow: Low Mach number finite volume methods for the acoustic and Euler equations, 2018 (pdf)

    Publications:

  • Wasilij Barsukow: Stationary states of finite volume discretizations of multi-dimensional linear hyperbolic systems, Proceedings of HYP2018, submitted

  • Wasilij Barsukow, Jonathan Hohm, Christian Klingenberg, Philip L. Roe: The active flux scheme on Cartesian grids and its low Mach number limit, 2018, submitted (pdf)

  • Wasilij Barsukow: Stationarity preserving schemes for multi-dimensional linear systems, Math.Comp. (2018), to appear (pdf, doi)

  • Wasilij Barsukow: Stationarity and vorticity preservation for the linearized Euler equations in multiple spatial dimensions, Finite Volumes for Complex Applications VIII — Methods and Theoretical Aspects, C. Cancès and P. Omnes (eds.), Springer Proceedings in Mathematics & Statistics 199, 2017 (doi)

  • Wasilij Barsukow, Christian Klingenberg: Exact solution and a truly multidimensional Godunov scheme for the acoustic equations, 2016, submitted (pdf)

  • Wasilij Barsukow, Philipp V. F. Edelmann, Christian Klingenberg, Friedrich K. Roepke: A low-Mach Roe-type solver for the Euler equations allowing for gravity source terms, Workshop on low velocity flows, Paris, 5-6 Nov. 2015, Dellacherie et al. (eds.), ESAIM: Proceedings and Surveys, Volume 56, 2017, (doi, pdf)

  • Wasilij Barsukow, Philipp V. F. Edelmann, Christian Klingenberg, Fabian Miczek, Friedrich K. Roepke: A numerical scheme for the compressible low-Mach number regime of ideal fluid dynamics, J.Sci.Comp. (2017) 72(2): 623-646, (pdf, doi)

  • Marcelo M. Miller Bertolami, Maxime Viallet, Vincent Prat, Wasilij Barsukow, Achim Weiss: On the relevance of bubbles and potential flows for stellar convection MNRAS (2016) 457 (4): 4441-4453, (pdf, doi)

    Posters

  • Wasilij Barsukow: Stationarity preserving schemes for the linearized Euler equations in multiple spatial dimensions (pdf)

  • Wasilij Barsukow, Philipp V.F. Edelmann, Christian Klingenberg, Friedrich K. Roepke: A low-Mach Roe-type solver for the Euler equations allowing for gravity source terms (pdf)