Wacharanan, P., Hao, X., "OceanLight.jl: A Julia package for calculating irradiance in the upper ocean using Monte Carlo simulations", Journal of Open Source Software (in revision).

Gupta, A., Young, W. R., Hao, X., "Enhanced transport by nonlinear interaction between surface gravity waves and internal solitary waves", Journal of Physical Oceanography (in revision).

Hao, X., 2025, "Nonlinear interaction of gravity-capillary waves in a two-layer fluid system". Physics of Fluids, 37 (8), 082125.

Hao, X., 2025, "Inferring free surface disturbance properties from Kelvin wakes using convolutional neural network " Flow, 5:E9.

Hao, X., 2024, "Quantifying bioluminescent light intensity in breaking waves using numerical simulations". Geophysical Research Letters, 51 (20).

Wu, J., Hao, X., Li, T., Shen, L., 2023, “Adjoint-based high-order spectral method of wave simulation for coastal bathymetry reconstruction”. Journal of Fluid Mechanics, 972, A41.

Zhang, Z., Hao, X., Santoni, C., Shen, L., Sotiropoulos, F., Khosronejad, A., 2023, “Toward prediction of turbulent atmospheric flows over propagating oceanic waves via machine-learning augmented large-eddy simulation”. Ocean Engineering, Vol. 280, 114759.

Yue, L., Hao, X., Shen, L., Fringer, O., 2023, “Direct simulation of the surface manifestation of internal gravity waves with a wave-current interaction model,” Journal of Physical Oceanography, Vol. 53, 981-993.

Hao, X., Shen, L., 2022, “Large-eddy simulation of gusty wind turbulence over travelling wave”. Journal of Fluid Mechanics, 946, A8.

Hao, X., Shen, L., 2022, “A novel machine learning method for accelerated modeling of the downwelling irradiance field in the upper ocean”.  Geophysical Research Letters, 49 (11).

Hao, X., Wu, J., Rogers, J. S., Fringer, O. B., Shen, L., 2022, “A high-order spectral method for effective simulation of surface waves interacting with an internal wave of large amplitude”. Ocean Modelling, 101996.

Hao, X., Shen, L., 2022, “A data-driven analysis of inhomogeneous wave field based on two-dimensional Hilbert-Huang transform”. Wave Motion, 110, 102896.

Wu, J., Ortiz‐Suslow, D. G., Hao, X., Wang, Q., Shen, L. 2022, “A model sensitivity study of ocean surface wave modulation induced by internal waves”. Earth and Space Science.

Wu, J., Hao, X., Shen, L., 2022, “An improved adjoint-based ocean wave reconstruction and prediction method”. Flow, 2:E2.

Weems, K., Liu, H., Hao, X., Shen, L., Nezami, S., Leodler, K., Zhang, S., 2022, “A reduced order model for simulating an amphibious vehicle transiting the surf zone”, Proceedings of 34th Symposium on Naval Hydrodynamics.

Hao, X., Cao, T., Shen, L., 2021, “Mechanistic study of shoaling effect on momentum transfer between turbulent flow and traveling wave using large-eddy simulation”. Physical Review Fluids, 6, 054608.

Hao, X., Shen, L., 2020, “Direct simulation of surface roughness signature of internal wave with deterministic energy-conservative model”. Journal of Fluid Mechanics. 891, R3.

Wang, L.-H., Zhang, W.-Y., Hao, X., Huang, W.-X., Shen, L., Xu, C.-X., Zhang, Z., 2020, “Surface wave effects on energy transfer in overlying turbulent flow”. Journal of Fluid Mechanics. 893, A21.

Hao, X., Shen, L., 2019, “Wind–wave coupling study using LES of wind and phase-resolved simulation of nonlinear waves”. Journal of Fluid Mechanics. 874, 391-425.

Hao, X., Li, T., Cao, T., Shen, L., 2019, “Simulation-based study of wind-wave interactions under various sea conditions”. Journal of Hydrodynamics. 31, 1148-1152.

Hao, X., Cao, T., Yang, Z., Li, T., Shen, L., 2018, “Simulation-based study of wind-wave interaction”. Procedia IUTAM. 26:162-173.