Cutforth, M., and Mirjalili, S. (2025). Convolutional autoencoders for the reconstruction of three-dimensional interfacial multiphase flows. arXiv preprint arXiv:2508.04084. Under review.
Brown, R. L., Mirjalili, S., Khanwale, M. A., & Mani, A. (2025). A mass-conserving contact line treatment for second-order conservative phase field methods based on the generalized Navier boundary condition. arXiv preprint arXiv:2412.16843.
Collis, H., Bezgin, D., Mirjalili, S., Mani, A. (2025). A robust four-equation model for compressible multi-phase multi-component flows satisfying interface equilibrium and phase-immiscibility conditions. arXiv preprint arXiv:2504.14063. Under review.
Nordström, J., Collis, H., Brown, R., Mirjalili, S., Maulan, A. G., Nchupang, M. P., Mani, A. (2025). An energy stable initial boundary value problem for incompressible multi-phase flow. Under review.
Collis, H., Mirjalili, S., & Mani, A. (2025). Diffuse interface treatment in generalized curvilinear coordinates with mesh-adapting interface thickness. Journal of Computational Physics, in press.
Avaro, A., Mirjalili, S., Griffiths, A. D., Santiago, J. G. (2025). Microfluidic networks using isotachophoresis. Proceedings of the National Academy of Sciences (PNAS), in press.
Mirjalili, S. (2025). Using DNS of Drops in HIT to Develop Models for Unresolved Scales in Multiphase Flows. Proceedings of the 15th ERCOFTAC Symposium onEngineering Turbulence Modelling and Measurements (ETMM15).
Cutforth, M., Mirjalili, S. (2025). Autoencoders for reconstructing interfacial multiphase flows. 1st International Symposium on AI and Fluid Mechanics, Chania, Greece, 2025.
Cundy, C. J.*, Mirjalili, S.*, Laurent, C., Ermon, S., Iaccarino, G. & Mani, A. (2024). A physics-informed machine learning model for the prediction of drop breakup in two-phase flows. International Journal of Multiphase Flow, 180, 104934.
Mirjalili, S., & Mani, A. (2024). A conservative second order phase field model for simulation of N-phase flows. Journal of Computational Physics, 498, 112657.
Kananian, S.*, Rho, J.*, Chen, C., Mirjalili, S., Daus, A., Kim, M., Niu, S., Pop, E., Wong, H. S. P., Bao, Z., Mani, A., and Poon, A. S. Y. (2023). A Disposable Reader-Sensor Solution for Wireless Temperature Logging. Device, 1, 100183.
Mirjalili, S.*, Taverniers, S.*, Collis, H., Behandish, M., & Mani, A. (2023). Inverse asymptotic treatment for modeling discontinuities in fluid flows via equation modification. Journal of Computational Science, 73, 102141.
Mirjalili, S., Khanwale, M. A., & Mani, A. (2023). Assessment of an energy-based surface tension model for simulation of two-phase flows using second-order phase field methods. Journal of Computational Physics, 474, 111795.
Mirjalili, S., Jain, S. S., & Mani, A. (2022). A computational model for interfacial heat and mass transfer in two-phase flows using a phase field method. International Journal of Heat and Mass Transfer, 197, 123326.
Mirjalili, S., & Chan, W. H. R. (2021). Linear stability of a thin fluid film interacting with its surrounding bulk fluid. Physics of Fluids 33, 072104 (featured article).
Mirjalili, S., & Mani, A. (2021). Consistent, energy-conserving momentum transport for simulations of two-phase flows using the phase field equations. Journal of Computational Physics, 426, 109918.
Mirjalili, S., & Mani, A. (2020). Transitional stages of thin air film entrapment in drop-pool impact events. Journal of Fluid Mechanics, 901, A14.
Mirjalili, S., Ivey, C. B. & Mani, A. (2020). A conservative diffuse interface method for two-phase flows with provable boundedness properties. Journal of Computational Physics, 401, 109006.
Chan, W. H. R.*, Mirjalili, S., Jain, S. S., Urzay, J., Mani, A., & Moin, P. (2019). Birth of microbubbles in turbulent breaking waves. Physical Review Fluids, 4(10), 100508.
Mirjalili, S. (2019). A NOVEL DIFFUSE INTERFACE METHOD FOR TWO-PHASE FLOWS AND APPLICATION IN SIMULATION OF MICRO-BUBBLE ENTRAINMENT (Doctoral dissertation, STANFORD UNIVERSITY).
Mirjalili, S., Ivey, C. B., & Mani, A. (2019). Comparison between the diffuse interface and volume of fluid methods for simulating two-phase flows. International Journal of Multiphase Flow, 116, 221-238. Featured in the list of most cited articles from IJMF published since 2019.
Mirjalili, S., Chan, W. H. R., & Mani, A. (2018). High Fidelity Simulations of Micro-Bubble Shedding from Retracting Thin Gas Films in the Context of Liquid-Liquid Impact. Symposium on Naval Hydrodynamics, Hamburg, Germany, 2018, arXiv preprint arXiv:1811.12352.