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. 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.
  2. 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
  3. 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
  4. 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
  5. 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.
  6. 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.
  7. 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
  8. 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
  9. 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.
  10. 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
  11. 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
  12. 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.
  13. 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
  14. 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
  15. 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
  16. 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
  17. 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
  18. 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
  19. Richter, D. H., and F. Veron: 2017: Sea Spray: an outsized influence on weather and climate. Parity, July 2017, 57-61. (in Japanese)
  20. 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
  21. Richter, D. H., and F. Veron, 2016: Sea Spray: an outsized influence on weather and climate, Physics today., November 2016, 34-39.
  22. 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
  23. 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.
  24. 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.
  25. Colle, B. A. et al. 2015: Improving the Mapping and Prediction of Offshore Wind Resources (IMPOWR): Experimental Overview and First results, BAMS.
  26. Veron, F., 2015: Ocean spray. Annu. Rev. Fluid Mech., 47:507 38, DOI: 10.1146/annurev-fluid-010814-014651
  27. 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.
  28. 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.
  29. 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.
  30. 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.
  31. 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.
  32. 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.
  33. 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.
  34. Mueller, J., and F. Veron, 2009c: A Sea State-Dependent Spume Generation Function. J. Phys. Oceanogr., 30(9): 2363-2372.
  35. 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.
  36. 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.
  37. 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.
  38. 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.
  39. 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.
  40. Veron, F., W.K. Melville, and L. Lenain. 2008: Wave-coherent air-sea heat flux. J. Phys. Oceanogr., 38 (4): 788-802.
  41. Veron, F., W.K. Melville, and L. Lenain. 2008: Infrared techniques for measuring ocean surface processes. J. Atmos. Oceanogr. Technol., 25 (2): 307-326.
  42. 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.
  43. 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.
  44. 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.
  45. 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.
  46. 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.
  47. Feddersen, F, and F. Veron, 2005: Wind effects on shoaling wave shape, J. Phys. Oceanogr., 35(7), 1223-1228.
  48. 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.
  49. 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.
  50. Veron, F., and W. K. Melville, 2001: Experiments on the stability and transition of wind-driven water surfaces. J. Fluid Mech., 446, 25-65.
  51. 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.
  52. 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.
  53. 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.
  54. 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.
  55. 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.
  56. 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.
  57. 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.