Curriculum Vitae - Inria
Curriculum Vitae - Inria
Curriculum Vitae - Inria
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
Preprints<br />
• M. Doumic, P. Gabriel, Eigenelements of a General Aggregation-Fragmentation Model, M3AS, 2010,<br />
vol. 20 (5), 757–783.<br />
• V. Calvez, N. Lenuzza, M. Doumic, J-P. Deslys, F. Mouthon, B. Perthame, Prion dynamic with size<br />
dependency - strain phenomena, Journal of Biological Dynamics, 2010, Vol. 4 (1), 28–42.<br />
• M. Doumic, T. Goudon, T. Lepoutre, Scaling Limit of a Discrete Prion Dynamics Model, Comm. in<br />
Math. Sc., vol.7 (4), 2009, 839–865.<br />
• M. Doumic, B. Perthame, J. Zubelli, Numerical Solution of an Inverse problem in Size-Structured<br />
Population Dynamics, Inverse Problems, vol. 25 (4), 2009, 1–22.<br />
• M. Doumic, Boundary Value Problem for an Oblique Paraxial Model of Light Propagation, MAA, vol.<br />
16 (1), 2009, 119–138.<br />
• M. Doumic, F. Duboc, F. Golse, R. Sentis, Boundary value problem for an oblique paraxial model of<br />
light propagation: the advection-Schrödinger equation, J. Comp. Phys., 2009, vol. 228 (3), 861–880.<br />
• M. Doumic, Analysis of a Population Model Structured by the Cells Molecular Content, MMNP,<br />
2007, vol. 2 (3), 121–152.<br />
• R. Sentis, M. Doumic, F. Golse, Mathematical and numerical aspects of wave propagation, WAVES<br />
2003, 862–867, Springer, Berlin.<br />
• M. Doumic, F. Golse, R. Sentis, A paraxial model for the propagation of light: the boundary value<br />
problem for the Schrödinger-advection equation in a tilted frame, C. R. Acad. Sci. Paris, Ser. I, 2003,<br />
336, 23–28.<br />
• M. Doumic, M. Hoffmann, P. Reynaud, V. Rivoirard, Nonparametric estimation of the division rate of<br />
a size-structured population, submitted.<br />
• M. Doumic, L. M. Tine, A General Inverse Problem for Polymerization-Fragmentation Equations, submitted.<br />
• M. Doumic, A. Ballesta, F. Charles, N. Lenuzza, S. Prigent, P. Gabriel, L-M. Tine, H. Rezaei, An<br />
Efficient Kinetic Model for Amyloid Fibrils Assemblies - Application to Huntington’s Disease.<br />
3