[10279] | 1 | @manual{NEMO_manual, |
---|
| 2 | title={NEMO ocean engine}, |
---|
| 3 | author={Madec Gurvan and NEMO System Team}, |
---|
| 4 | organization={NEMO Consortium}, |
---|
| 5 | journal={Notes du Pôle de modélisation de l\'Institut Pierre-Simon Laplace (IPSL)}, |
---|
| 6 | number={27}, |
---|
| 7 | publisher={Zenodo}, |
---|
| 8 | abstract={The ocean engine of NEMO is a primitive equation model adapted to regional and |
---|
| 9 | global ocean circulation problems. |
---|
| 10 | It is intended to be a flexible tool for studying the ocean and its interactions with |
---|
| 11 | the others components of the earth climate system over a wide range of space and time scales.}, |
---|
| 12 | doi={10.5281/zenodo.1464816}, |
---|
| 13 | edition={}, |
---|
| 14 | year={} |
---|
[10201] | 15 | } |
---|
| 16 | |
---|
[10279] | 17 | @manual{SI3_manual, |
---|
| 18 | title={SI³ – Sea Ice modelling Integrated Initiative – The NEMO Sea Ice engine}, |
---|
| 19 | author={NEMO Sea Ice Working Group}, |
---|
| 20 | organization={NEMO Consortium}, |
---|
| 21 | journal={Notes du Pôle de modélisation de l\'Institut Pierre-Simon Laplace (IPSL)}, |
---|
| 22 | number={31}, |
---|
| 23 | publisher={Zenodo}, |
---|
| 24 | abstract={SI³ (Sea Ice modelling Integrated Initiative) is the sea ice engine of NEMO |
---|
| 25 | (Nucleus for European Modelling of the Ocean). |
---|
| 26 | It is adapted to regional and global sea ice and climate problems. |
---|
| 27 | It is intended to be a flexible tool for studying sea ice and its interactions with |
---|
| 28 | the other components of the Earth System over a wide range of space and time scales. |
---|
| 29 | SI3 is based on the Arctic Ice Dynamics Joint EXperiment (AIDJEX) framework, |
---|
| 30 | combining the ice thickness distribution framework, the conservation of horizontal momentum, |
---|
| 31 | an elastic-viscous plastic rheology, and energy-conserving halo-thermodynamics. |
---|
| 32 | Prognostic variables are the two-dimensional horizontal velocity field, ice volume, area, enthalpy, |
---|
| 33 | salt content, snow volume and enthalpy. |
---|
| 34 | In the horizontal direction, the model uses a curvilinear orthogonal grid. |
---|
| 35 | In the vertical direction, the model uses equally-spaced layers. |
---|
| 36 | In thickness space, the model uses thickness categories with prescribed boundaries. |
---|
| 37 | Various physical and numerical choices are available to describe sea ice physics. |
---|
| 38 | SI3 is interfaced with the NEMO ocean engine, and, via the OASIS coupler, with |
---|
| 39 | several atmospheric general circulation models. |
---|
| 40 | It also supports two-way grid embedding via the AGRIF software.}, |
---|
| 41 | doi={10.5281/zenodo.1471689}, |
---|
| 42 | edition={}, |
---|
| 43 | year={} |
---|
[10201] | 44 | } |
---|
| 45 | |
---|
[10279] | 46 | @manual{TOP_manual, |
---|
| 47 | title={TOP – Tracers in Ocean Paradigm – The NEMO Tracers engine}, |
---|
| 48 | author={NEMO TOP Working Group}, |
---|
| 49 | organization={NEMO Consortium}, |
---|
| 50 | journal={Notes du Pôle de modélisation de l\'Institut Pierre-Simon Laplace (IPSL)}, |
---|
| 51 | number={28}, |
---|
| 52 | publisher={Zenodo}, |
---|
| 53 | abstract={}, |
---|
| 54 | doi={10.5281/zenodo.1471700}, |
---|
| 55 | edition={}, |
---|
| 56 | year={} |
---|
| 57 | } |
---|
| 58 | |
---|
[10201] | 59 | @Article{gmd-8-1245-2015, |
---|
| 60 | author = {Vidard, A. and Bouttier, P.-A. and Vigilant, F.}, |
---|
| 61 | title = {{NEMOTAM}: {T}angent and {A}djoint {M}odels for the ocean modelling platform {NEMO}}, |
---|
| 62 | journal = {Geoscientific Model Development}, |
---|
| 63 | volume = {8}, |
---|
| 64 | year = {2015}, |
---|
| 65 | number = {4}, |
---|
| 66 | pages = {1245--1257}, |
---|
| 67 | doi = {10.5194/gmd-8-1245-2015} |
---|
| 68 | } |
---|