source: NEMO/trunk/REFERENCES.bib @ 10279

Last change on this file since 10279 was 10279, checked in by nicolasmartin, 21 months ago

Various improvments for quick start guide

  • implementation of Rtd theme (Read the Docs) with custom layout and style file
  • add reviewed BibTeX entries for NEMO references with DOI (manuals, guide, development strategy)
  • enhancement of bibliography management and configuration file for guide building
  • standardisation of headings markup
  • numerous edits
File size: 3.0 KB
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={}
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={}
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={}
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}
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