P.J. Baddoo, N.J. Moore, A.U. Oza, D.G. Crowdy,
Generalization of waving-plate theory to multiple interacting swimmers,
Communications on Pure and Applied Mathematics, 2022, (in press). arXiv
J.M. Huang and N.J. Moore,
Morphological attractors in natural convective dissolution,
N.J. Moore, C. Tyler Bolles, Andrew J. Majda, Di Qi,
Anomalous waves triggered by abrupt depth changes: laboratory experiments and truncated KdV statistical mechanics,
Journal of Nonlinear Science, 2020, 30(6), 3235–3263. DOI, arXiv
S.H. Chiu, M.N.J. Moore, B.D. Quaife,
Viscous Transport in Eroding Porous Media,
P.S. Eastham, M.N.J. Moore, N.G. Cogan, Q. Wang, and O. Steinbock,
Multiphase modeling of precipitation-induced membrane formation,
K. Khazmutdinova, D. Nof, D. Tremaine, M. Ye, M.N.J. Moore
A minimal model for predicting ventilation rates of subterranean caves,
Journal of Cave and Karst Science, 2019, 81(4):264-274. DOI, arXiv
M. McCurdy, M.N.J. Moore, X. Wang,
Convection in a coupled fluid-porous media system,
SIAM Journal on Applied Mathematics, 2019, 79(6):2313–2339. DOI, arXiv
L.J. Gray, J. Jakowski, M.N.J. Moore, W. Ye,
Boundary integral analysis for non-homogeneous, incompressible Stokes flows,
Advances in Computational Mathematics, 2019, 45(3):1729–1734. DOI, arXiv
I.C. Sorribes, M.N.J. Moore, H.M. Byrne, H.V. Jain,
A Biomechanical Model of Tumor-induced Intracranial Pressure and Edema in Brain Tissue,
Andrew J. Majda, M.N.J. Moore, Di Qi,
Statistical dynamical model to predict extreme events and anomalous features in shallow water waves with abrupt depth change,
PNAS, 2019, 116(10): 3982-3987. DOI
C. Tyler Bolles, Kevin Speer, M.N.J. Moore,
Anomalous wave statistics induced by abrupt depth change,
Bryan Quaife and M.N.J. Moore,
A boundary-integral framework to simulate viscous erosion of a porous medium,
Journal of Computational Physics, 2018, 375: 1-21. DOI, arXiv
M.N.J. Moore,
A fast Chebyshev method for simulating flexible-wing propulsion,
Journal of Computational Physics, 2017, 345: 792-817. DOI, arXiv
M.N.J. Moore,
Riemann-Hilbert problems for the shapes formed by bodies dissolving, melting, and eroding in fluid flows,
M.N.J. Moore,
Torsional spring is the optimal flexibility arrangement for thrust production of a flapping wing,
J.M. Huang, M.N.J. Moore, L. Ristroph,
Shape dynamics and scaling laws for a body dissolving in fluid flow,
M.N.J. Moore,
Analytical results on the role of flexibility in flapping propulsion,
M.N.J. Moore, L. Ristroph, S. Childress, J. Zhang, M.J. Shelley,
Self-similar evolution of a body eroding in a fluid flow,
L. Ristroph, M.N.J. Moore, S. Childress, M.J. Shelley, J. Zhang,
Sculpting of an erodible body by flowing water,
M.N.J. Moore and Michael J. Shelley,
A weak-coupling expansion for viscoelastic fluids applied to dynamic settling of a body,
J. Non-Newtonian Fluid Mechanics, 2012, 183-184: 25-36. DOI, pdf
R. Camassa, R.M. McLaughlin, M.N.J. Moore and K. Yu,
Stratified flows with vertical layering of density: experimental and theoretical study of flow configurations and their stability,
R. Camassa, R.M. McLaughlin, M.N.J. Moore, A. Vaidya,
Brachistochrones in potential flow and the connection to Darwin's theorem,
M.N.J. Moore, L.J. Gray, and T. Kaplan,
Evaluation of supersingular integrals: Second-order boundary derivatives,
International Journal for Numerical Methods in Engineering, 2007, 69: 1930-1947. DOI, pdf
F. Bernardi, S. Chellam, N.G. Cogan, M.N.J. Moore,
Stokes flow solutions in permeable hollow fibers,
Under review at SIAM Journal on Applied Mathematics, 2019, arXiv