Forskjeller
Her vises forskjeller mellom den valgte versjonen og den nåværende versjonen av dokumentet.
Begge sider forrige revisjon Forrige revisjon | Neste revisjon Begge sider neste revisjon | ||
wanp:publications [2019-01-10] erj |
wanp:publications [2019-01-10] erj |
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Linje 27: | Linje 27: | ||
==== Publications in 2018 ==== | ==== Publications in 2018 ==== | ||
+ | * L. Chen and E. R. Jakobsen. L1 semigroup generation for Fokker-Planck operators associated with general Levy driven SDEs. //Discrete Contin. Dyn. Syst.// 38(11): 5735-5763, 2018. [[http:// | ||
+ | * L. Chen, E. R. Jakobsen, and A. Naess. On numerical density approximations of solutions of SDEs with unbounded coefficients. //Adv. Comput. Math.// 44(3): 693-721, 2018. [[http:// | ||
* H.-L. Li, Y. Wang, and Z. Xin. Non-existence of classical solutions with finite energy to the Cauchy problem of the compressible Navier–Stokes equations //Arch. Rational Mech. Anal.// (2018). [[https:// | * H.-L. Li, Y. Wang, and Z. Xin. Non-existence of classical solutions with finite energy to the Cauchy problem of the compressible Navier–Stokes equations //Arch. Rational Mech. Anal.// (2018). [[https:// | ||
* H.-L. Li and Y. Wang. Formation of singularities of spherically symmetric solutions to the 3D compressible Euler equations and Euler-Poisson equations. //Nonlinear Differ. Equ. Appl.// 25 (2018). [[https:// | * H.-L. Li and Y. Wang. Formation of singularities of spherically symmetric solutions to the 3D compressible Euler equations and Euler-Poisson equations. //Nonlinear Differ. Equ. Appl.// 25 (2018). [[https:// | ||
Linje 45: | Linje 47: | ||
==== Publications in 2017 ==== | ==== Publications in 2017 ==== | ||
* G. Bruell, M. Ehrnström, A. Geyer and L. Pei, Symmetric solutions of evolutionary partial differential equations. // | * G. Bruell, M. Ehrnström, A. Geyer and L. Pei, Symmetric solutions of evolutionary partial differential equations. // | ||
- | * L. Chen, E. R. Jakobsen, and A. Naess. On numerical density approximations of solutions of SDEs with unbounded coefficients. //Adv. Comput. Math.//, Online First, pp 1-29, 2017. [[http:// | ||
* G. Bruell, M. Ehrnström and L. Pei. Symmetry and decay of traveling wave solutions to the Whitham equation. // J. Differential Equations // 262(8): pp 4232--4254 (2017). [[https:// | * G. Bruell, M. Ehrnström and L. Pei. Symmetry and decay of traveling wave solutions to the Whitham equation. // J. Differential Equations // 262(8): pp 4232--4254 (2017). [[https:// | ||
* A. Aasen and K. Varholm, Traveling gravity water waves with critical layers. //Journal of Mathematical Fluid Mechanics// (2017). [[https:// | * A. Aasen and K. Varholm, Traveling gravity water waves with critical layers. //Journal of Mathematical Fluid Mechanics// (2017). [[https:// |