Wagner, G. L., N. Pizzo, L. Lenain, & F. Veron, 2023. Transition to turbulence in wind-drift layers. 

Erinin et al.. 2022. Speed and acceleration of droplets generated by breaking wind-forced waves.

Buckley et al.. 2020. Surface viscous stress over wind-driven waves with intermittent airflow separation.

Veron & Mieussens. 2020. An Eulerian model for sea spray transport and evaporation.

Yousefi et al. 2020: Momentum flux measurements in the airflow over wind-generated surface waves.

Buckley and Veron, 2016: Structure of the airflow above surface waves,

Richter and Veron: 2016: Sea Spray: an outsized influence on weather and climate.

Veron, 2015: Ocean Spray

Veron et al., 2012: Spume Droplet Production

Veron et al., 2007: Surface viscous stress measurements

Veron & Melville 2001: Experiments on the stability and transition of wind-driven water surfaces

Zirbel et al. 2000: Reversible effects of flow on the morphology of Ceratocorys Horrida

  1. Wagner, G. L., N. Pizzo, L. Lenain, & F. Veron, 2023. Transition to turbulence in wind-drift layers. Journal of Fluid Mechanics, 976, A8
  2. Loft, M., N. Kühl,  M.P. Buckley, J.R. Carpenter, M. Hinze, F. Veron, & T. Rung, 2023. Two-phase flow simulations of surface waves in wind-forced conditions. Physics of fluids, 35(7). doi: 10.1063/5.0156963
  3. Carpenter, R., M.P. Buckley, F. Veron, 2022. Evidence of the critical layer mechanism in growing wind waves. J. Fluid Mech, 948, A26. doi.org/10.1017/jfm.2022.714.
  4. Ruth, D. J., B. Néel, M.A. Erinin, M. Mazzatent, R. Jaquette,, F. Veron, & L. Deike, 2022. Three-dimensional measurements of air entrainment and enhanced bubble transport during wave breaking. Geophysical Research Letters, 49, e2022GL099436. https://doi.org/10.1029/2022GL099436
  5. Erinin M. A., Néel, B., Ruth, D. J., Mazzatenta, M., Jaquette, R. D., Veron, F., & Deike, L. 2022. Speed and acceleration of droplets generated by breaking wind-forced waves. Geophysical Research Letters, 49, e2022GL098426. https://doi.org/10.1029/2022GL098426
  6. Funke, C. S, M.P. Buckley, L.K.P. Schultze, F. Veron, M-L. E. Timmermans, and J.R. Carpenter. 2021. Pressure fields in the airflow over wind-generated surface waves. J. Phys. Oceanogr.  JPO-D-20-0311.1
  7. Yousefi, K., F. Veron, and M.P. Buckley. 2021. Turbulent and wave kinetic energy budgets in the airflow over wind-generated surface waves. J. Fluid Mech, https://www.doi.org/10.1017/jfm.2021.377.
  8. Buckley, M.P., F. Veron, and K. Yousefi. 2020. Surface viscous stress over wind-driven waves with intermittent airflow separation. J. Fluid Mech, 905, A31, https://wwwdoi:10.1017/jfm.2020.760.
  9. Veron, F., & L. Mieussens. 2020. An Eulerian model for sea spray transport and evaporation. J. Fluid Mech, 897, A6. doi:10.1017/jfm.2020.314
  10. Yousefi, K., F. Veron, and M.P. Buckley. 2020: Momentum flux measurements in the airflow over wind-generated surface waves. J. Fluid Mech, doi.org/10.1017/jfm.2020.276
  11. Yousefi, K. and F. Veron, 2020: Boundary layer formulations in orthogonal curvilinear coordinates for flow over wind-generated surface waves. J. Fluid Mech, 888, A11.
  12. Yousefi, K., F. Veron, and M.P. Buckley, M. P., 2020: Measurements of airside shear-and wave-induced viscous stresses over strongly forced wind waves. In Recent Advances in the Study of Oceanic Whitecaps (pp. 77-94). Springer, Cham. https://doi.org/10.1007/978-3-030-36371-06
  13. Hasfi, A. A. Tejada Martinez, and F. Veron, 2020: DNS and LES of small-scale Langmuir circulation and scalar transfer across the air-sea interface. J Fluid Mech., DOI: https://doi.org/10.1017/jfm.2019.802
  14. Husain, N.T., T. Hara, M.P. Buckley, K. Yousefi, F. Veron, and P.P. Sullivan, 2019: Boundary Layer Turbulence over Surface Waves in a Strongly Forced Condition: LES and Observation. J. Phys. Oceanogr., 49, 1997-2015, doi: 10.1175/JPO-D-19-0070.1.
  15. Davies, A. R., F. Veron, and M.J. Oliver: 2019: Biofloat observations of a phytoplankton bloom and carbon export in the Drake Passage. Deep Sea Res., 146, 61-102, doi 1016/j.dsr.2019.02.004
  16. Kukulka, T, and F. Veron. 2019: Lagrangian Investigation of Wave-Driven Turbulence in the Ocean Surface Boundary Layer. J. Phys. Oceanogr., 49, 1997-2015, doi: 1175/JPO-D-18-0081.1
  17. Lubin P., O. Kimmoun, Veron, and S. Glockner, 2018: Discussion on instabilities in breaking waves: Vortices, air-entrainment and droplet generation. Europ. J. Fluid Mech https://doi.org/10.1016/j.euromechflu.2018.05.006
  18. Buckley M., and F. Veron, 2018: The turbulent airflow over wind generated surface waves, Europ. J. Fluid Mech. https://doi.org/10.1016/j.euromechflu.2018.04.003
  19. Buckley M., and F. Veron, 2017: Airflow measurements at a wavy air–water interface using PIV and LIF, Exp Fluids. 58: 161. https://doi.org/10.1007/s00348-017-2439-2
  20. Harrison, E.L., and F. Veron: 2017: Near-surface turbulence and buoyancy induced by heavy rainfall. J. Fluid Mech. 830, 602-630, DOI: 10.1017/jfm.2017.602
  21. Richter, D. H., and F. Veron: 2017: Sea Spray: an outsized influence on weather and climate. Parity, July 2017, 57-61. (in Japanese)
  22. Hasfi, A., A.A. Tejada Martinez, and F. Veron, 2017: Direct numerical simulation of scalar transfer across an air-water interface during inception and growth of Langmuir circulation, Computers and Fluids. 158, 49-56. Doi:10.1016/j.compfluid.2017.06.021
  23. Richter, D. H., and F. Veron, 2016: Sea Spray: an outsized influence on weather and climate, Physics today., November 2016, 34-39.
  24. Buckley, M. P. and F. Veron, 2016: Structure of the airflow above surface waves, J. Phys. Oceanogr., DOI: http://dx.doi.org/10.1175/JPO-D-15-0135.1
  25. Archer, C. L., B. A. Colle, D. L. Veron, F. Veron, and M. J. Sienkiewicz, 2016: On the predominance of unstable atmospheric conditions in the marine boundary layer offshore of the U.S. northeastern coast. Journal of Geophysical Research-Atmospheres, doi: 10.1002/2016JD024896.
  26. Veron, F. and L. Mieussens, 2016: A kinetic model for particle-surface interaction applied to rain falling on water waves,. J. Fluid. Mech. – 796, 767-787.
  27. Colle, B. A. et al. 2015: Improving the Mapping and Prediction of Offshore Wind Resources (IMPOWR): Experimental Overview and First results, BAMS.
  28. Veron, F., 2015: Ocean spray. Annu. Rev. Fluid Mech., 47:507 38, DOI: 10.1146/annurev-fluid-010814-014651
  29. Mueller, J., and F. Veron, 2014: Impact of Sea Spray on Air-Sea Fluxes. Part II: Feedback Effects. J. Phys. Oceanogr., 44, DOI: 10.1175/JPO-D-13-0246.1.
  30. Mueller, J., and F. Veron, 2014: Impact of Sea Spray on Air-Sea Fluxes. Part I: Results from Stochastic Simulations of Sea Spray Drops over the Ocean J. Phys. Oceanogr., 44, DOI: 10.1175/JPO-D-13-0245.1.
  31. Veron, F., C. Hopkins, E.L. Harrison, and J.A. Mueller, 2012: Sea spray spume droplet production in high wind speeds. Geophys. Res. Lett, 39, L116602.
  32. Harrison, E.L., F. Veron, D.T. Ho, M.C. Reid, P. Orton, and W.R. McGillis, 2012: Nonlinear interaction between rain- ad wind-induced air-water gas exchange. J. Geophys. Res, 117, C03034.
  33. Veron, F., W.K. Melville, and L. Lenain, 2011: The Effects of Small-Scale Turbulence on Air-Sea Heat Flux. J. Phys. Oceanogr., 41(1): 205-220.
  34. Mueller, J., and F. Veron, 2010b: A Lagrangian stochastic model for sea spray evaporation in the atmospheric marine boundary layer. Boundary-Layer Meteorology. 137: 135-152.
  35. Mueller, J., and F. Veron, 2010a: Bulk formulation of the heat and water vapor fluxes at the air-sea interface including nonmolecular contributions. J. Atmoph. Sciences., 67(1): 234-247.
  36. Mueller, J., and F. Veron, 2009c: A Sea State-Dependent Spume Generation Function. J. Phys. Oceanogr., 30(9): 2363-2372.
  37. Veron, F., W.K. Melville, and L. Lenain, 2009: Measurements of ocean surface waves and surface turbulence interactions. J. Phys. Oceanogr., 39(9): 2310-2323.
  38. Veron, D. E., C. P. Weaver and F. Veron, 2009: Stochastic Radiative Transfer on Modeled Cloud Fields. IEEE Geosciences and Remote Sensing Letters. 6(2): 184-188.
  39. Mueller, J. and F. Veron, 2009b: Lagrangian Stochastic Model for Heavy Particle Dispersion in the Atmospheric Marine Boundary Layer. Boundary-Layer Meteorology. 130(2): 229-247.
  40. Mueller, J. and F. Veron, 2009a: Nonlinear Formulation of the Bulk Surface Stress over Breaking Waves: Feedback Mechanisms from Air-flow Separation. Boundary-Layer Meteorology. 130(1): 117-134.
  41. Misra, S.K., J.T. Kirby, M. Brocchini, F. Veron, M. Thomas, and C. Kambhamettu, 2008: The mean and turbulent flow structure of a weak hydraulic jump, Phys. Of Fluids. 20(3) -035106.
  42. Veron, F., W.K. Melville, and L. Lenain. 2008: Wave-coherent air-sea heat flux. J. Phys. Oceanogr., 38 (4): 788-802.
  43. Veron, F., W.K. Melville, and L. Lenain. 2008: Infrared techniques for measuring ocean surface processes. J. Atmos. Oceanogr. Technol., 25 (2): 307-326.
  44. Veron, F., W.K. Melville, and L. Lenain. 2008: Wave Modulated Turbulent Fields at the Ocean Surface and Related Air-Sea Flux . Proceedings of the Conference on Water Waves Theory and Experiment ., 49-68.
  45. Veron, F., G. Saxena and S Misra. 2007: Measurements of viscous tangential stresses in the separated airflow above wind waves. Geophysical Research Letters, 34, L19603, DOI: 10.1029/2007GL031242.
  46. Misra, S.K., M. Thomas, J.T. Kirby, M. Brocchini, F. Veron, and C. Kambhamettu, 2006: Estimation of complex air-water interfaces from PIV images, Exp. In Fluids, 40(5), 764-775.
  47. Ho, D.T., Veron, F., Harrison, E., Bliven, L.F., Scott, N., McGillis, W.R. 2005: The combined effect of rain and wind on air-water gas exchange: A feasibility study. J. Mar. Syst., 66(1-4), 150-160.
  48. Chruch T. M, F. Veron and T.D. Jickells, 2005: “Coastal Atmospheric Chemistry” in Chapter 4, Coastal Atmospheric circulation dynamics. Coastal Atmospheric phenomena. Coupled Coastal Wind-Wave-Current Dynamics. SCOR working group.
  49. Feddersen, F, and F. Veron, 2005: Wind effects on shoaling wave shape, J. Phys. Oceanogr., 35(7), 1223-1228.
  50. Young, I. R., M. L. Banner, M.A. Donelan, A.V. Babanin, F. Veron, W.K. Melville, and C. McCormick, 2004: An Integrated Study of the Wind Wave Source Term Balance in Finite Depth Water. J. Atmos. Oceanogr. Technol., 22(7), 814-831.
  51. Melville, W. K., F. Veron and C. White, 2002: The velocity field under breaking waves: coherent structures and turbulence. J. Fluid Mech., 454, 203-233.
  52. Veron, F., and W. K. Melville, 2001: Experiments on the stability and transition of wind-driven water surfaces. J. Fluid Mech., 446, 25-65.
  53. Veron, F., and W. K. Melville, 2001: Remote Observations of the Initial Generation of Surface Waves. IGARSS 2001 Scanning the Present and Resolving the Future Proceedings IEEE 2001 International Geoscience and Remote Sensing Symposium., 2, 961-963.
  54. Zirbel, M. J., F. Veron, and M. I. Latz, 2000: The reversible effect of fluid flow on the morphology of the dinoflagellate Cerahttps://sites.udel.edu/fveron/files/2020/12/tocorys horrida (peridiniales). J. Phycol., 36, 46-58.
  55. Veron, F., and W. K. Melville, 1999: Laboratory measurements of Langmuir circulations and surface waves. A Symposium on Fluid Mechanics and the Environment: Dynamical Approaches. Ithaca, New York, USA. J. L. Lumley, editor. 401-412.
  56. Melville, W. K., C. White, F. Veron, and E. Luft, 1999: Laboratory measurements of turbulence under breaking waves. Fourth International Symposium on Air-Sea Interaction. Sydney, Australia. M. L. Banner, editors. 211-218.
  57. Veron, F., and W. K. Melville, 1999: Laboratory studies of the initiation of Langmuir circulations and turbulence. Fourth International Symposium on Air-Sea Interaction. Sydney, Australia. M. L. Banner, editors. 265-272.
  58. Veron, F., and W. K. Melville, 1999: Pulse-to-pulse coherent Doppler measurements of waves and turbulence. J. Atmos. and Ocean. Technol., 16, 1580-1597.
  59. Melville, W. K., R. Shear, and F. Veron, 1998: Laboratory measurements of the generation and evolution of Langmuir circulations. J. Fluid Mech., 364, 31-58.