[cig-commits] r4285 - mc/3D/CitcomS/trunk/doc/manual

Mon Aug 14 12:29:23 PDT 2006

Author: sue
Date: 2006-08-14 12:29:23 -0700 (Mon, 14 Aug 2006)
New Revision: 4285

Modified:
   mc/3D/CitcomS/trunk/doc/manual/citcoms.lyx
Log:
changed margins and doc settings as requested

Modified: mc/3D/CitcomS/trunk/doc/manual/citcoms.lyx
===================================================================

--- mc/3D/CitcomS/trunk/doc/manual/citcoms.lyx	2006-08-14 17:35:39 UTC (rev 4284)
+++ mc/3D/CitcomS/trunk/doc/manual/citcoms.lyx	2006-08-14 19:29:23 UTC (rev 4285)
@@ -10,19 +10,23 @@
 \paperfontsize default
 \spacing single
 \papersize default
-\use_geometry false
+\use_geometry true
 \use_amsmath 0
 \cite_engine basic
 \use_bibtopic false
 \paperorientation portrait
+\leftmargin 1in
+\topmargin 1in
+\rightmargin 1in
+\bottommargin 1in
 \secnumdepth 2
-\tocdepth 2
+\tocdepth 5
 \paragraph_separation indent
 \defskip medskip
-\quotes_language english
+\quotes_language swedish
 \papercolumns 1
-\papersides 2
-\paperpagestyle empty
+\papersides 1
+\paperpagestyle headings
 \tracking_changes false
 \output_changes true
 \end_header
@@ -317,8 +321,8 @@
 The fundamental basis for the numerical solution of any time-dependent convectio
 n problem is the sequential solution of an equation of motion and an energy
  equation.
- Convection problems are initially valued with boundary conditions,
- including all of the problems which are solved with CitComS.py.
+ Convection problems are initially valued with boundary conditions, including
+ all of the problems which are solved with CitComS.py.
  The normal sequence of steps for the solution of convection problems starts
  with an initial temperature field.
  First, the momentum equation is solved.
@@ -11613,335 +11617,18 @@
 topography heatflux vel_colat vel_lon
 \end_layout
 
-\begin_layout Bibliography
-
-\bibitem [1]{Moresi et al Plate tectonics}
-Moresi, L., Gurnis, M.
- and Zhong, S.
- Plate tectonics and convection in the Earth's mantle: Toward a numerical
- simulation.
- 
-\emph on
-Comp.
- Sci.
- Engin.
- 
-\series bold
-\emph default
-2
-\series default
-, 22-33 (2000).
+\begin_layout Chapter*
+Appendix D: License 
 \end_layout
 
-\begin_layout Bibliography
+\begin_layout Standard
 
-\bibitem [2]{Moresi/Solomatov Numerical}
-Moresi, L.
- N.
- and Solomatov, V.
- S.
- Numerical investigation of 2D convection with extremely large viscosity
- variations.
- 
-\emph on
-Phys.
- Fluid
-\emph default
- 
 \series bold
-7
-\series default
-, 2,154-2,162 (1995).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [3]{Moresi/Gurnis Contraints}
-Moresi, L.
- N.
- and Gurnis, M.
- Constraints on the lateral strength of slabs from three-dimensional dynamic
- flow models.
- 
-\emph on
-Earth Planet.
- Sci.
- Lett.
-
-\emph default
- 
-\series bold
-138
-\series default
-, 15-28 (1996).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [4]{Zhong/Moresi The role of faults}
-Zhong, S., Gurnis, M.
- and Moresi, L.
- The role of faults, nonlinear rheology, and viscosity structure in generating
- plates from instantaneous mantle flow models.
- 
-\emph on
-J.
- Geophys.
- Res.
-
-\emph default
- 
-\series bold
-103
-\series default
-, 15,255-15,268 (1998).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [5]{Zhong et al The role of temperature}
-Zhong, S., Zuber, M.
- T., Moresi, L.
- N.
- and Gurnis, M.
- The role of temperature-dependent viscosity and surface plates in spherical
- shell models of mantle convection.
- 
-\emph on
-J.
- Geophys.
- Res.
- 
-\series bold
-\emph default
-105
-\series default
-, 11,063-11,082 (2000).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [6]{Tan et al Slabs in the lower}
-Tan, E., Gurnis, M.
- and Han, L.
- Slabs in the lower mantle and their modulation of plume formation.
- 
-\emph on
-Geochem.
- Geophys.
- Geosys.
-
-\emph default
- 
-\series bold
-3
-\series default
-, 1067 (2002).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [7]{Conrad/Gurnis Seismic tomography}
-Conrad, C.
- P.
- and Gurnis, M.
- Seismic tomography, surface uplift, and the breakup of Gondwanaland: Integratin
-g mantle convection backwards in time.
- 
-\emph on
-Geochem.
- Geophys.
- Geosys.
-
-\emph default
- 
-\series bold
-4(3)
-\series default
-, 1031 (2003).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [8]{Hughes The Finite Element Method}
-Hughes, T.
- J.
- R.
- 
-\emph on
-The Finite Element Method: Linear Static and Dynamic Finite Element Analysis
-\emph default
- (Prentice-Hall, Inc., Englewood Cliffs, New Jersey, 1987).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [9]{Ramage/Wathen Iterative solution}
-Ramage, A.
- and Wathen, A.
- J.
- Iterative solution techniques for the Stokes and Navier-Stokes equations.
- 
-\emph on
-Int.
- J.
- Numer.
- Methods.
- Fluids
-\emph default
- 
-\series bold
-19
-\series default
-, 67-83 (1994).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [10]{Brooks A.N.}
-Brooks, A.
- N.
-
-\emph on
- A Petrov-Galerkin Finite Element Formulation for Convecton Dominated Flows.
-
-\emph default
- Unpublished doctoral thesis, California Institute of Technology, Pasadena,
- CA, 1981.
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [11]{Cahouet/Chabard Some fast 3D}
-Cahouet, J.
- and Chabard, J.-P.
- Some fast 3D finite element solvers for the generalized Stokes problem.
- 
-\emph on
-Int.
- J.
- Numer.
- Methods.
- Fluids
-\emph default
- 
-\series bold
-8
-\series default
-, 869-895 (1988).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [12]{Atanga/Silvester Iterative methods}
-Atanga, J.
- and Silvester, D.
- Iterative methods for stabilized mixed velocity-pressure finite elements.
- 
-\emph on
-Int.
- J.
- Numer.
- Methods.
- Fluids
-\emph default
- 
-\series bold
-14
-\series default
-, 71-81 (1992).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [13]{Hager/OConnell A simple global}
-Hager, B.
- H.
- and O'Connell, R.
- J.
- A simple global model of plate dynamics and mantle convection.
- 
-\emph on
-J.
- Geophys.
- Res.
-
-\emph default
- 
-\series bold
-86
-\series default
-, 4,843-4,867 (1981).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [14]{Tan et al GeoFramework Part I}
-Tan, E., Thoutireddy, P., Choi, E., Gurnis, M.
- and Aivazis, M.
- GeoFramework Part I: Coupling Models of Mantle Convection with a Python
- Framework, in preparation.
- 
-\emph on
-Geochem.
- Geophys.
- Geosys.
-
-\emph default
- (2004).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [15]{Zhong et al Free-surface formulation}
-Zhong, S., Gurnis, M.
- and Moresi, L.
- Free-surface formulation of mantle convection--I.
- Basic theory and appication to plumes
-\emph on
-.
- Geophys.
- J.
- Int.
-
-\emph default
- 
-\series bold
-127
-\series default
-, 708-718 (1996).
-\end_layout
-
-\begin_layout Bibliography
-
-\bibitem [16]{Zhong et al Three-dimensional}
-Zhong, S., Paulson, A.
- and Wahr, J.
- Three-dimensional finite-element modeling of Earth's viscoelastic deformation:
- effects of lateral variations in lithospheric thickness.
- 
-\emph on
-Geophys.
- J.
- Int.
-
-\emph default
- 
-\series bold
-155
-\series default
-, 679-695 (2003).
- 
-\end_layout
-
-\begin_layout Chapter*
-Appendix D: License  
-\end_layout
-
-\begin_layout Paragraph
 GNU GENERAL PUBLIC LICENSE Version 2, June 1991.
  Copyright (C) 1989, 1991 Free Software Foundation, Inc.
- 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA 
+ 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+\series default
+ 
 \newline
 
 \series medium
@@ -12447,5 +12134,258 @@
  instead of this License.
 \end_layout
 
+\begin_layout Bibliography
+
+\bibitem [1]{Moresi et al Plate tectonics}
+Moresi, L., M.
+ Gurnis, and S.
+ Zhong (2000), Plate tectonics and convection in the Earth's mantle: Toward
+ a numerical simulation, 
+\emph on
+Comp.
+ Sci.
+ Engin., 
+\emph default
+2, 22-33.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [2]{Moresi/Solomatov Numerical}
+Moresi, L.
+ N., and V.
+ S.
+ Solomatov (1995), Numerical investigation of 2D convection with extremely
+ large viscosity variations, 
+\emph on
+Phys.
+ Fluid,
+\emph default
+ 7, 2,154-2,162.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [3]{Moresi/Gurnis Contraints}
+Moresi, L.
+ N., and M.
+ Gurnis (1996), Constraints on the lateral strength of slabs from three-dimensio
+nal dynamic flow models, 
+\emph on
+Earth Planet.
+ Sci.
+ Lett.,
+\emph default
+ 138, 15-28.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [4]{Zhong/Moresi The role of faults}
+Zhong, S., M.
+ Gurnis, and L.
+ Moresi (1998), The role of faults, nonlinear rheology, and viscosity structure
+ in generating plates from instantaneous mantle flow models, 
+\emph on
+J.
+ Geophys.
+ Res.,
+\emph default
+ 103, 15,255-15,268.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [5]{Zhong et al The role of temperature}
+Zhong, S., M.
+ T.
+ Zuber, L.
+ N.
+ Moresi, and M.
+ Gurnis (2000), The role of temperature-dependent viscosity and surface
+ plates in spherical shell models of mantle convection, 
+\emph on
+J.
+ Geophys.
+ Res., 
+\emph default
+105, 11,063-11,082.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [6]{Tan et al Slabs in the lower}
+Tan, E., M.
+ Gurnis, and L.
+ Han (2002), Slabs in the lower mantle and their modulation of plume formation,
+ 
+\emph on
+Geochem.
+ Geophys.
+ Geosys.,
+\emph default
+ 3, 1067.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [7]{Conrad/Gurnis Seismic tomography}
+Conrad, C.
+ P., and M.
+ Gurnis (2003), Seismic tomography, surface uplift, and the breakup of Gondwanal
+and: Integrating mantle convection backwards in time, 
+\emph on
+Geochem.
+ Geophys.
+ Geosys.,
+\emph default
+ 4(3), 1031, doi:10.1029/2001GC000299.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [8]{Hughes The Finite Element Method}
+Hughes, T.
+ J.
+ R.
+ 
+\emph on
+The Finite Element Method: Linear Static and Dynamic Finite Element Analysis.
+
+\emph default
+ Englewood Cliffs, New Jersey: Prentice-Hall, Inc.; 1987.
+ 672 p.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [9]{Ramage/Wathen Iterative solution}
+Ramage, A., and A.
+ J.
+ Wathen (1994), Iterative solution techniques for the Stokes and Navier-Stokes
+ equations, 
+\emph on
+Int.
+ J.
+ Numer.
+ Methods.
+ Fluids,
+\emph default
+ 19, 67-83.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [10]{Brooks A.N.}
+Brooks, A.
+ N.
+
+\emph on
+ A Petrov-Galerkin Finite Element Formulation for Convecton Dominated Flows.
+
+\emph default
+ Unpublished doctoral thesis, California Institute of Technology, Pasadena,
+ CA, 1981.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [11]{Cahouet/Chabard Some fast 3D}
+Cahouet, J., and J.-P.
+ Chabard (1988), Some fast 3D finite element solvers for the generalized
+ Stokes problem
+\emph on
+, Int.
+ J.
+ Numer.
+ Methods.
+ Fluids,
+\emph default
+ 8, 869-895.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [12]{Atanga/Silvester Iterative methods}
+Atanga, J., and D.
+ Silvester (1992), Iterative methods for stabilized mixed velocity-pressure
+ finite elements, 
+\emph on
+Int.
+ J.
+ Numer.
+ Methods.
+ Fluids,
+\emph default
+ 14, 71-81.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [13]{Hager/OConnell A simple global}
+Hager, B.
+ H., and R.
+ J.
+ O'Connell (1981), A simple global model of plate dynamics and mantle convection
+, 
+\emph on
+J.
+ Geophys.
+ Res.,
+\emph default
+ 86, 4,843-4,867.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [14]{Tan et al GeoFramework Part I}
+Tan, E., E.
+ Choi, P.
+ Thoutireddy, M.
+ Gurnis, and M.
+ Aivazis (2006), GeoFramework: Coupling multiple models of mantle convection
+ within a computational framework,  
+\emph on
+Geochem., Geophys., Geosyst.
+ 7,
+\series bold
+ 
+\series default
+\emph default
+Q06001, doi:10.1029/2005GC001155.
+ 
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [15]{Zhong et al Free-surface formulation}
+Zhong, S., M.
+ Gurnis, and L.
+ Moresi (1996), Free-surface formulation of mantle convection--I.
+ Basic theory and appication to plumes
+\emph on
+, Geophys.
+ J.
+ Int.
+\emph default
+, 127, 708-718.
+\end_layout
+
+\begin_layout Bibliography
+
+\bibitem [16]{Zhong et al Three-dimensional}
+Zhong, S., A.
+ Paulson, and J.
+ Wahr (2003), Three-dimensional finite-element modeling of Earth's viscoelastic
+ deformation: effects of lateral variations in lithospheric thickness, 
+\emph on
+Geophys.
+ J.
+ Int.,
+\emph default
+ 155, 679-695.
+ 
+\end_layout
+
 \end_body
 \end_document

