skip to content

Faculty of Mathematics

 

Publications

Determining Projections and Functionals for Weak Solutions of the Navier-Stokes Equations
M Holst, E Titi
– Recent Developments in Optimization Theory and Nonlinear Analysis, Y. Censor and S. Reich, eds., vol 204 of Contemporary mathematics, Providence, Rhode Island, 1997, American Mathematical Society
(2010)
ON THE STATISTICAL PROPERTIES OF THE 3D INCOMPRESSIBLE NAVIER-STOKES-VOIGT MODEL
B Levant, F Ramos, ES Titi
– Communications in Mathematical Sciences
(2010)
8,
277
Global regularity and convergence of a Birkhoff‐Rott‐α approximation of the dynamics of vortex sheets of the two‐dimensional Euler equations
C Bardos, JS Linshiz, ES Titi
– Communications on Pure and Applied Mathematics
(2009)
63,
697
On the rate of convergence of the two-dimensional -models of turbulence to the navier-stokes equations
Y Cao, ES Titi
– Numerical Functional Analysis and Optimization
(2009)
30,
1231
Global Attractors and Determining Modes for the 3D Navier-Stokes-Voight Equations
VK Kalantarov, ES Titi
– Chinese Annals of Mathematics, Series B
(2009)
30,
697
Entire solutions of hydrodynamical equations with exponential dissipation
C Bardos, U Frisch, W Pauls, SS Ray, ES Titi
– Communications in Mathematical Physics
(2009)
293,
519
Axisymmetric Euler-$α$ Equations without Swirl: Existence, Uniqueness, and Radon Measure Valued Solutions
Q Jiu, D Niu, ES Titi, Z Xin
(2009)
Global existence and uniqueness of weak solutions of three-dimensional euler equations with helical symmetry in the absence of vorticity stretching
B Ettinger, ES Titi
– SIAM Journal on Mathematical Analysis
(2009)
41,
269
Simulations de l'écoulement turbulent marin avec un modèle de déconvolution
A-C Bennis, R Lewandowski, ES Titi
– Comptes Rendus Mathématique
(2009)
347,
445
Simulations de l'écoulement turbulent marin avec un modèle de déconvolution
AC Bennis, R Lewandowski, ES Titi
– Comptes Rendus Mathematique
(2009)
347,
445
  • <
  • 18 of 29
  • >

Research Group

Nonlinear Dynamical Systems

Room

G1.12

Telephone

01223 337871