Peer-reviewed

Some publications have been translated into posters, which casual readers might find more enjoyable. See the Presentations section to find out where each poster was presented.

Submitted:

  1. Zhou, R. and N. Grisouard. Spectral solver for Cauchy problems in polar coordinates using discrete Hankel transforms. Submitted to BIT Numerical Mathematics (arXiv).

Published or accepted:

  1. Papoutsellis, Ch. E., M. J. Mercier and N. GrisouardInternal tide generation from non-uniform barotropic body forcing. Submitted to the Journal of Fluid Mechanics (open-access doi).
  2. Farrell, J. H., N. Grisouard, T. Scaffidi. Terahertz Radiation from the Dyakonov-Shur Instability of Hydrodynamic Electrons in a Corbino Geometry. Physical Review B, 106(19):195432, 2022 (arXiv | doi).
  3. Zemskova, V. E., T-L. He, Z. Wan and N. GrisouardA deep-learning estimate of the decadal trends in the Southern Ocean carbon storage. Nature Communications, 13(1):4056, 2022 (EarthArXiv | open-access doi).
  4. Wang, H., N. Grisouard, H. Salehipour, A. Nuz, M. Poon, A.L.S. Ponte. A deep learning approach to extract internal tides scattered by geostrophic turbulence. Geophysical Research Letters, 49:e2022GL099400, 2022 (ESSOAr | doi | shareable).
  5. Zemskova, V. E. and N. GrisouardEnergetics and mixing of stratified, rotating flow over abyssal hills. Journal of Physical Oceanography, 52(6):1155-1177, 2022 (EarthArXiv doi).
  6. Zemskova, V. E. and N. GrisouardNear-inertial dissipation due to stratified flow over abyssal topography. Journal of Physical Oceanography, 51(8):2483–2504, 2021. (EarthArXiv | doi).
  7. Grisouard, N. and V. E. Zemskova. Ekman-Inertial Instability. Physical Review Fluids, 5:1244802, 2020 (EarthArXiv | doi).
  8. Nelson, A. D., B. K. Arbic, D. Menemenlis, W. R. Peltier, M. H. Alford, N. Grisouard and J. M. Klymak. Improved Internal Wave Spectral Continuum in a Regional Ocean Model. Journal of Geophysics Research: Oceans, 125:e2019JC015974, 2020 (pdf | doi).
  9. Grisouard, N. Extraction of Available Potential Energy from Geostrophic Fronts by Inertial-Symmetric Instabilities. Journal of Physical Oceanography, 48(5):1033-1051, 2018. (pdf† | doi poster)
  10. Grisouard, N. and L. N. Thomas. Energy exchanges between density fronts and near-inertial waves reflecting off the ocean surface. Journal of Physical Oceanography, 46(2):501–516, 2016. (pdf† | doi | poster).
  11. Grisouard, N. and L. N. Thomas. Critical and near-critical reflections of near-inertial waves off the sea surface at ocean fronts. Journal of Fluid Mechanics, 765:273-302, 2015. (pdf* | doi | poster)
  12. Nikurashin, M., R. Ferrari, N. Grisouard and K. L. Polzin. The impact of finite amplitude bottom topography on internal wave generation in the Southern Ocean. Journal of Physical Oceanography, 44:2938-2950, 2014. (pdf† | doi)
  13. Grisouard, N., M. Leclair, L. Gostiaux and C. Staquet. Large scale energy transfer from an internal gravity wave reflecting on a simple slope. Procedia IUTAM, 8:119-128, 2013. (pdf | doi)
  14. Bühler, O., N. Grisouard and M. Holmes-Cerfon. Strong particle dispersion induced by weakly dissipative random internal waves. Journal of Fluid Mechanics, 719:R4, 2013. (pdf* | doi)
  15. Grisouard, N. and O. Bühler. Forcing of oceanic mean flows by dissipating internal tides. Journal of Fluid Mechanics, 708:250-278, 2012. (pdf* | doi | poster)
  16. Grisouard, N., C. Staquet and T. Gerkema. Generation of internal solitary waves in a pycnocline by an internal wave beam: a numerical study. Journal of Fluid Mechanics, 676:491-513, 2011. (pdf* | doi | poster)
  17. Hazewinkel, J., N. Grisouard and S.B. Dalziel. Comparison of laboratory and numerically observed scalar fields of an internal wave attractor. European Journal of Mechanics B/Fluids, 30(1):51-56, 2011. (, damn you Elsevier! | doi)
  18. Grisouard, N. and C. Staquet. Numerical simulations of the local generation of internal solitary waves in the Bay of Biscay. Nonlin. Processes Geophys., 17:575-584, 2010. (doi, open access)
  19. Grisouard, N., C. Staquet and I. Pairaud. Numerical simulation of a two-dimensional internal wave attractor. Journal of Fluid Mechanics, 614:1-14, 2008. (pdf* | doi | poster)

 

 * Copyright Cambridge University Press
† © Copyright [date of publication] American Meteorological Society (AMS).