[cig-commits] commit: Added reference for Tecton.

Thu Feb 7 08:27:33 PST 2013

changeset:   165:7386281923cc
tag:         tip
user:        Brad Aagaard <baagaard at usgs.gov>
date:        Thu Feb 07 08:27:29 2013 -0800
files:       faultRup.tex references.bib
description:
Added reference for Tecton.


diff -r bc488cb8c26a -r 7386281923cc faultRup.tex

--- a/faultRup.tex	Wed Feb 06 14:12:10 2013 -0800
+++ b/faultRup.tex	Thu Feb 07 08:27:29 2013 -0800
@@ -210,20 +210,20 @@ simulations of earthquake rupture propag
 simulations of earthquake rupture propagation. This effort builds on
 our previous work on developing the numerical modeling software EqSim
 \citep{Aagaard:etal:BSSA:2001} for dynamic spontaneous rupture
-simulations and Tecton \citep{TODO} for quasi-static interseismic and
-postseismic simulations. We plan to seamlessly couple these two types
-of simulations together to resolve the earthquake cycle. Implementing
-slip on the potentially nonplanar fault surface differentiates these
-types of problems from many other elasticity problems. Complexities
-arise because earthquakes may involve offset on multiple, intersecting
-irregularly shaped fault surfaces in the interior of a modeling
-domain. Furthermore, we want the flexibility to either prescribe the
-slip on the fault or have the fault slip evolve according to a fault
-constitutive model that specifies the friction on the fault
-surface. Here, we describe a robust, yet flexible method for
-implementing fault slip with a domain decomposition approach, its
-effect on the overall design of PyLith, and verification of its
-implementation using benchmarks.
+simulations and Tecton \citep{Williams:Richardson:1991} for
+quasi-static interseismic and postseismic simulations. We plan to
+seamlessly couple these two types of simulations together to resolve
+the earthquake cycle. Implementing slip on the potentially nonplanar
+fault surface differentiates these types of problems from many other
+elasticity problems. Complexities arise because earthquakes may
+involve offset on multiple, intersecting irregularly shaped fault
+surfaces in the interior of a modeling domain. Furthermore, we want
+the flexibility to either prescribe the slip on the fault or have the
+fault slip evolve according to a fault constitutive model that
+specifies the friction on the fault surface. Here, we describe a
+robust, yet flexible method for implementing fault slip with a domain
+decomposition approach, its effect on the overall design of PyLith,
+and verification of its implementation using benchmarks.
 
 % ------------------------------------------------------------------
 \section{Numerical Model of Fault Slip}
diff -r bc488cb8c26a -r 7386281923cc references.bib
--- a/references.bib	Wed Feb 06 14:12:10 2013 -0800
+++ b/references.bib	Thu Feb 07 08:27:29 2013 -0800
@@ -3,7 +3,7 @@
 @string{BSSA = "Bulletin of the Seismological Society of America"}
 @string{PAGEOPH = "Pure and Applied Geophysics"}
 @string{JGR = "Journal of Geophysical Research"}
- at string{JGR-SE = "Journal of Geophysical Research - Solid Earth"}
+ at string{JGR-SE = "Journal of Geophysical Research: Solid Earth"}
 @string{GJI = "Geophysical Journal International"}
 @string{G3 = "Geochemistry, Geophysics, Geosystems"}
 
@@ -132,6 +132,19 @@
   number = 	 5,
   pages = 	 {1391--1400},
   month = 	 oct,
+}
+
+ at Article{Williams:Richardson:1991,
+  author = 	 {Williams, C.~A. and Richardson, R.~M.},
+  title = 	 {A rheologically layered three-dimensional model of
+                  the {San} {Andreas} {Fault} in central and southern
+                  {California}}, 
+  journal = 	 JGR-SE,
+  year = 	 1991,
+  volume = 	 96,
+  number = 	 {B10},
+  pages = 	 {16597--16623},
+  doi =          {10.1029/91JB01484},
 }
 
 @Article{Dieterich:Richards-Dinger:2010,

