articles/ceaice/ceaice.tex

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\title{A Dynamic-Thermodynamic Sea ice Model for Ocean Climate
  Estimation on an Arakawa C-Grid}

\author{Martin Losch, Dimitris Menemenlis, Patrick Heimbach, \\
        Jean-Michel Campin, and Chris Hill}
\begin{document}

\maketitle

\input{ceaice_abstract.tex}

\input{ceaice_intro.tex}

\input{ceaice_model.tex}

\input{ceaice_forward.tex}

\input{ceaice_adjoint.tex}

\input{ceaice_concl.tex}

\paragraph{Acknowledgements}
We thank Jinlun Zhang for providing the original B-grid code and many
helpful discussions. ML thanks Elizabeth Hunke for multiple explanations.

This work is a contribution to Estimating the Circulation and Climate of the
Ocean, Phase II (ECCO2).  The ECCO2 project (http://ecco2.org/) is sponsored
by the NASA Modeling Analysis and Prediction (MAP) program.  D. Menemenlis
carried out this work at the Jet Propulsion Laboratory, California Institute
of Technology under contract with the National Aeronautics and Space
Administration.

\bibliography{bib/journal_abrvs,bib/seaice,bib/genocean,bib/maths,bib/mitgcmuv,bib/fram}

\end{document}

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A Dynamic-Thermodynamic Sea ice Model for Ocean Climate
  Estimation on an Arakawa C-Grid

Introduction

Ice Model:
 Dynamics formulation.
  B-C, LSR, EVP, no-slip, slip
  parallellization
 Thermodynamics formulation.
  0-layer Hibler salinity + snow
  3-layer Winton

Idealized tests
 Funnel Experiments
 Downstream Island tests
  B-grid LSR no-slip
  C-grid LSR no-slip
  C-grid LSR slip
  C-grid EVP no-slip
  C-grid EVP slip

Arctic Setup
 Configuration
 OBCS from cube
 forcing
 1/2 and full resolution
 with a few JFM figs from C-grid LSR no slip
  ice transport through Canadian Archipelago
  thickness distribution
  ice velocity and transport

Arctic forward sensitivity experiments
 B-grid LSR no-slip
 C-grid LSR no-slip
 C-grid LSR slip
 C-grid EVP no-slip
 C-grid EVP slip
 C-grid LSR no-slip + Winton
  speed-performance-accuracy (small)
  ice transport through Canadian Archipelago differences
  thickness distribution differences
  ice velocity and transport differences

Adjoint sensitivity experiment on 1/2-res setup
 Sensitivity of sea ice volume flow through Fram Strait
*** Sensitivity of sea ice volume flow through Canadian Archipelago

Summary and conluding remarks
1	dimitri	1.18	% $Header: /u/gcmpack/MITgcm_contrib/articles/ceaice/ceaice.tex,v 1.17 2008/02/26 19:27:26 dimitri Exp $
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3	dimitri	1.1	\documentclass[12pt]{article}
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7	dimitri	1.1
8			\usepackage[round,comma]{natbib}
9	dimitri	1.2	\bibliographystyle{bib/agu04}
10	dimitri	1.1
11			\usepackage{amsmath,amssymb}
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15			% math abbreviations
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27			% cross reference scheme
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44	dimitri	1.1
45			\title{A Dynamic-Thermodynamic Sea ice Model for Ocean Climate
46			Estimation on an Arakawa C-Grid}
47
48			\author{Martin Losch, Dimitris Menemenlis, Patrick Heimbach, \\
49			Jean-Michel Campin, and Chris Hill}
50			\begin{document}
51
52			\maketitle
53
54	dimitri	1.17	\input{ceaice_abstract.tex}
55
56			\input{ceaice_intro.tex}
57
58			\input{ceaice_model.tex}
59
60			\input{ceaice_forward.tex}
61	dimitri	1.1
62	dimitri	1.17	\input{ceaice_adjoint.tex}
63	dimitri	1.1
64	dimitri	1.17	\input{ceaice_concl.tex}
65	dimitri	1.1
66			\paragraph{Acknowledgements}
67			We thank Jinlun Zhang for providing the original B-grid code and many
68	mlosch	1.6	helpful discussions. ML thanks Elizabeth Hunke for multiple explanations.
69	dimitri	1.1
70	dimitri	1.18	This work is a contribution to Estimating the Circulation and Climate of the
71			Ocean, Phase II (ECCO2). The ECCO2 project (http://ecco2.org/) is sponsored
72			by the NASA Modeling Analysis and Prediction (MAP) program. D. Menemenlis
73			carried out this work at the Jet Propulsion Laboratory, California Institute
74			of Technology under contract with the National Aeronautics and Space
75			Administration.
76
77	dimitri	1.7	\bibliography{bib/journal_abrvs,bib/seaice,bib/genocean,bib/maths,bib/mitgcmuv,bib/fram}
78	dimitri	1.1
79			\end{document}
80
81			%%% Local Variables:
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85	mlosch	1.4
86
87			A Dynamic-Thermodynamic Sea ice Model for Ocean Climate
88			Estimation on an Arakawa C-Grid
89
90			Introduction
91
92			Ice Model:
93			Dynamics formulation.
94			B-C, LSR, EVP, no-slip, slip
95			parallellization
96			Thermodynamics formulation.
97			0-layer Hibler salinity + snow
98			3-layer Winton
99
100			Idealized tests
101			Funnel Experiments
102			Downstream Island tests
103			B-grid LSR no-slip
104			C-grid LSR no-slip
105			C-grid LSR slip
106			C-grid EVP no-slip
107			C-grid EVP slip
108
109			Arctic Setup
110			Configuration
111			OBCS from cube
112			forcing
113			1/2 and full resolution
114			with a few JFM figs from C-grid LSR no slip
115			ice transport through Canadian Archipelago
116			thickness distribution
117			ice velocity and transport
118
119			Arctic forward sensitivity experiments
120			B-grid LSR no-slip
121			C-grid LSR no-slip
122			C-grid LSR slip
123			C-grid EVP no-slip
124			C-grid EVP slip
125			C-grid LSR no-slip + Winton
126			speed-performance-accuracy (small)
127			ice transport through Canadian Archipelago differences
128			thickness distribution differences
129			ice velocity and transport differences
130
131			Adjoint sensitivity experiment on 1/2-res setup
132			Sensitivity of sea ice volume flow through Fram Strait
133			*** Sensitivity of sea ice volume flow through Canadian Archipelago
134
135			Summary and conluding remarks