- [1] Time asymptotics of structured populations with diffusion and dynamic boundary conditions. Postprint. Article
M. Mokhtar-Kharroubi et Q. Richard, Discrete and Continuous Dynamical Systems Series B, 23(10), (2018) pp. 4087-4116.
- [2] Implication of age-structure on the dynamics of Lotka Volterra equations. Postprint. Article.
A. Perasso et Q. Richard, Differential and Integral Equations, 32, (2019) pp. 91-120.
- [3] Spectral theory and time asymptotics of size-structured two-phase population models. Postprint. Article.
M. Mokhtar-Kharroubi et Q. Richard, Discrete and Continuous Dynamical Systems Series B, 25(8), (2020) pp. 2969-3004.
- [4] Global stability in a competitive infection-age structured model. Article (Open Access).
Q. Richard, Mathematical Modelling of Natural Phenomena, 15(54), (2020) pp. 1-39.
- [5] Asymptotic behavior of age-structured and delayed Lotka-Volterra models. Postprint. Article.
A. Perasso et Q. Richard, SIAM, Journal on Mathematical Analysis, 52(5), (2020) pp. 4284-4313.
- [6] Concentration estimates in a multi-host epidemiological model structured by phenotypic traits. Postprint. Article.
J.B. Burie, A. Ducrot, Q. Griette et Q. Richard, Journal of Differential Equations, 269(12), (2020) pp. 11492-11539.
- [7] Well-posedness and positivity property for a reaction-diffusion model of plankton communities, involving a rational nonlinearity with singularity. Postprint. Article.
A. Perasso, Q. Richard, I. Azzali et E. Venturino, Studies in Applied Mathematics, 146(1), (2021) pp. 211-232.
- [8] Age-structured non-pharmaceutical interventions for optimal control of COVID-19 epidemic. Article (Open Access).
Q. Richard, S. Alizon, M. Choisy, M. T. Sofonea et R. Djidjou-Demasse, PLOS Computational Biology, 17(3), (2021) pp. 1-25.
- [9] Human-vector malaria transmission model structured by age, time since infection and waning immunity. Postprint. Article.
Q. Richard, M. Choisy, T. Lefèvre et R. Djidjou-Demasse, Nonlinear Analysis: Real World Applications, 63, (2022), pp. 103393.
- [10] An epi-evolutionary model for predicting the adaptation of spore-producing pathogens to quantitative resistance in heterogeneous environments. Article (Open Access).
F. Fabre, J.-B. Burie, A. Ducrot, S. Lion, Q. Richard et R. Djidjou-Demasse, Evolutionary Applications, 15(1), (2022), pp. 95-110.
- [11] Non-Markovian modelling highlights the importance of age structure on Covid-19 epidemiological dynamics. Article (Open Access).
B. Reyné, Q. Richard, C. Selinger, M.T. Sofonea, R. Djidjou-Demasse et S. Alizon. Recommandé par Peer Community in Mathematical and Computational Biology. Mathematical Modelling of Natural Phenomena, 17(7), (2022) pp. 1-24.