@article{fdi:010073635,
  title = {{D}estabilization of an oceanic meddy-like vortex : energy transfers and significance of numerical settings},
  author = {{M}enesguen, {C}. and {L}e {G}entil, {S}. and {M}archesiello, {P}atrick and {D}ucousso, {N}.},
  editor = {},
  language = {{ENG}},
  abstract = {{T}he increase of computational capabilities led recent studies to implement very high-resolution simulations that gave access to new scale interaction processes, particularly those associated with the transfer of energy from the oceanic mesoscales to smaller scales through an interior route to dissipation, which is still underexplored. {I}n this context, we study spindown simulations of a mesoscale interior vortex, unstable to a mixed baroclinic-barotropic instability. {E}ven though the global energy is almost conserved, some energy is transferred down to dissipation scales during the development of instabilities. {H}owever, in our parameter regime, there is no substantial forward energy cascade sustained by unbalanced dynamics. {R}ather than exploring the physical parameter range, we clarify numerical discretization issues that can be detrimental to the physical solutions and our interpretation of finescale dynamics. {S}pecial care is given to determining the effective resolution of the different simulations. {W}e improve it by a factor of 2 in our primitive equation ({PE}) finitedifference {C}oastal and {R}egional {O}cean {C}ommunity ({CROCO}) model by implementing a fifth-order accurate horizontal advection scheme. {W}e also explore a range of grid aspect ratios dx/dz and find that energy spectra converge for aspect ratios that are close to {N}/f, the ratio of the stratification {N} over the {C}oriolis parameter f. {H}owever, convergence is not reached in the {PE} model when using a fourth-order centered scheme for vertical tracer advection (standard in {ROMS}-family codes). {T}he scheme produces dispersion errors that trigger baroclinic instabilities and generate spurious submesoscale horizontal features. {T}his spurious instability shows great impact on submesoscale production and energy cascade, emphasizing the significance of numerical settings in oceanic turbulence studies.},
  keywords = {},
  booktitle = {},
  journal = {{J}ournal of {P}hysical {O}ceanography},
  volume = {48},
  numero = {5},
  pages = {1151--1168},
  ISSN = {0022-3670},
  year = {2018},
  DOI = {10.1175/jpo-d-17-0126.1},
  URL = {https://www.documentation.ird.fr/hor/fdi:010073635},
}