source: doc/papers/AMA/AMA-stix/ama/wileyNJD-AMA.bbl @ 9dc31c10

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsdeferred_resndemanglerenumforall-pointer-decayjacob/cs343-translationjenkins-sandboxnew-astnew-ast-unique-exprnew-envno_listpersistent-indexerpthread-emulationqualifiedEnumwith_gc
Last change on this file since 9dc31c10 was d046db2, checked in by Peter A. Buhr <pabuhr@…>, 6 years ago

relocate AMA paper macros

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1\begin{thebibliography}{10}
2
3\bibitem{Hirt1974}
4Hirt CW, Amsden AA, Cook JL. An arbitrary {L}agrangian-{E}ulerian computing
5  method for all flow speeds.  {\it J {C}omput {P}hys. }1974;14(3):227--253.
6
7\bibitem{Liska2010}
8Liska R, Shashkov M, Vachal P, Wendroff B. Optimization-based synchronized
9  flux-corrected conservative interpolation (remapping) of mass and momentum
10  for arbitrary {L}agrangian-{E}ulerian methods.  {\it J {C}omput {P}hys.
11  }2010;229(5):1467--1497.
12
13\bibitem{Taylor1937}
14Taylor GI, Green AE. Mechanism of the production of small eddies from large
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16\newblock \url{https://doi.org/10.1098/rspa.1937.0036},
17  \url{http://rspa.royalsocietypublishing.org/content/158/895/499}.
18
19\bibitem{Knupp1999}
20Knupp PM. Winslow smoothing on two-dimensional unstructured meshes.  {\it Eng
21  {C}omput. }1999;15:263--268.
22
23\bibitem{Kamm2000}
24Kamm J. {\it Evaluation of the {S}edov-von {N}eumann-{T}aylor blast wave
25  solution. } Technical {R}eport LA-UR-00-6055: Los {A}lamos {N}ational
26  {L}aboratory; 2000.
27
28\bibitem{Kucharik2003}
29Kucharik M, Shashkov M, Wendroff B. An efficient linearity-and-bound-preserving
30  remapping method.  {\it J {C}omput {P}hys. }2003;188(2):462--471.
31
32\bibitem{Blanchard2015}
33Blanchard G, Loubere R. {\it High-Order {C}onservative {R}emapping with a
34  posteriori {MOOD} stabilization on polygonal meshes. }
35  \url{https://hal.archives-ouvertes.fr/hal-01207156}, the {HAL} {O}pen
36  {A}rchive, hal-01207156. Accessed January 13, 2016; 2015.
37
38\bibitem{Burton2013}
39Burton DE, Kenamond MA, Morgan NR, Carney TC, Shashkov MJ. An intersection
40  based {ALE} scheme {(xALE)} for cell centered hydrodynamics {(CCH)}.  In:
41  Talk at {M}ultimat 2013, {I}nternational {C}onference on {N}umerical
42  {M}ethods for {M}ulti-{M}aterial {F}luid {F}lows; September 2--6, 2013; San
43  {F}rancisco.
44\newblock LA-UR-13-26756.2.
45
46\bibitem{Berndt2011}
47Berndt M, Breil J, Galera S, Kucharik M, Maire PH, Shashkov M. Two-step hybrid
48  conservative remapping for multimaterial arbitrary {L}agrangian-{E}ulerian
49  methods.  {\it J {C}omput {P}hys. }2011;230(17):6664--6687.
50
51\bibitem{Kucharik2012}
52Kucharik M, Shashkov M. One-step hybrid remapping algorithm for multi-material
53  arbitrary {L}agrangian-{E}ulerian methods.  {\it J {C}omput {P}hys.
54  }2012;231(7):2851--2864.
55
56\bibitem{Breil2015}
57Breil J, Alcin H, Maire PH. A swept intersection-based remapping method for
58  axisymmetric {ReALE} computation.  {\it Int {J} {N}umer {M}eth {F}l.
59  }2015;77(11):694--706.
60\newblock Fld.3996.
61
62\bibitem{Barth1997}
63Barth TJ. Numerical methods for gasdynamic systems on unstructured meshes.  In:
64   Kroner D, Rohde C, Ohlberger M, eds. {\it An {I}ntroduction to {R}ecent
65  {D}evelopments in {T}heory and {N}umerics for {C}onservation {L}aws,
66  {P}roceedings of the {I}nternational {S}chool on {T}heory and {N}umerics for
67  {C}onservation {L}aws}, Lecture {N}otes in {C}omputational {S}cience and
68  {E}ngineering. Berlin: Springer 1997.
69\newblock ISBN 3-540-65081-4.
70
71\bibitem{Lauritzen2011}
72Lauritzen P, Erath C, Mittal R. On simplifying `incremental remap'-based
73  transport schemes.  {\it J {C}omput {P}hys. }2011;230(22):7957--7963.
74
75\bibitem{Klima2017}
76Klima M, Kucharik M, Shashkov M. Local error analysis and comparison of the
77  swept- and intersection-based remapping methods.  {\it Commun {C}omput
78  {P}hys. }2017;21(2):526--558.
79
80\bibitem{Dukowicz2000}
81Dukowicz JK, Baumgardner JR. Incremental remapping as a transport/advection
82  algorithm.  {\it J {C}omput {P}hys. }2000;160(1):318--335.
83
84\bibitem{Kucharik2011}
85Kucharik M, Shashkov M. Flux-based approach for conservative remap of
86  multi-material quantities in {2D} arbitrary {L}agrangian-{E}ulerian
87  simulations.  In:  Fo\v{r}t J, F{\"{u}}rst J, Halama J, Herbin R, Hubert F,
88  eds. {\it Finite {V}olumes for {C}omplex {A}pplications {VI} {P}roblems \&
89  {P}erspectives},  Springer {P}roceedings in {M}athematics, vol. 1: Springer
90  2011 (pp. 623--631).
91
92\bibitem{Kucharik2014}
93Kucharik M, Shashkov M. Conservative multi-material remap for staggered
94  multi-material arbitrary {L}agrangian-{E}ulerian methods.  {\it J {C}omput
95  {P}hys. }2014;258:268--304.
96
97\bibitem{Loubere2005}
98Loubere R, Shashkov M. A subcell remapping method on staggered polygonal grids
99  for arbitrary-{L}agrangian-{E}ulerian methods.  {\it J {C}omput {P}hys.
100  }2005;209(1):105--138.
101
102\bibitem{Caramana1998}
103Caramana EJ, Shashkov MJ. Elimination of artificial grid distortion and
104  hourglass-type motions by means of {L}agrangian subzonal masses and
105  pressures.  {\it J {C}omput {P}hys. }1998;142(2):521--561.
106
107\bibitem{Hoch2009}
108Hoch P. {\it An arbitrary {L}agrangian-{E}ulerian strategy to solve
109  compressible fluid flows. } Technical {R}eport: CEA; 2009.
110\newblock HAL: hal-00366858.
111  https://hal.archives-ouvertes.fr/docs/00/36/68/58/PDF/ale2d.pdf. Accessed
112  January 13, 2016.
113
114\bibitem{Shashkov1996}
115Shashkov M. {\it Conservative {F}inite-{D}ifference {M}ethods on {G}eneral
116  {G}rids}.
117\newblock Boca Raton, Florida: CRC {P}ress; 1996.
118\newblock ISBN 0-8493-7375-1.
119
120\bibitem{Benson1992}
121Benson DJ. Computational methods in {L}agrangian and {E}ulerian hydrocodes.
122  {\it Comput {M}ethod {A}ppl {M}. }1992;99(2--3):235--394.
123
124\bibitem{Margolin2003}
125Margolin LG, Shashkov M. Second-order sign-preserving conservative
126  interpolation (remapping) on general grids.  {\it J {C}omput {P}hys.
127  }2003;184(1):266--298.
128
129\bibitem{Kenamond2013}
130Kenamond MA, Burton DE. Exact intersection remapping of multi-material
131  domain-decomposed polygonal meshes.  In: Talk at {M}ultimat 2013,
132  {I}nternational {C}onference on {N}umerical {M}ethods for {M}ulti-{M}aterial
133  {F}luid {F}lows; September 2--6, 2013; San {F}rancisco.
134\newblock LA-UR-13-26794.
135
136\bibitem{Dukowicz1984}
137Dukowicz J. Conservative rezoning (remapping) for general quadrilateral meshes.
138   {\it J {C}omput {P}hys. }1984;54(3):411--424.
139
140\bibitem{Margolin2002}
141Margolin LG, Shashkov M. {\it Second-order sign-preserving remapping on general
142  grids. } Technical Report LA-UR-02-525: Los {A}lamos {N}ational {L}aboratory;
143  2002.
144
145\bibitem{Mavriplis2003}
146Mavriplis DJ. Revisiting the least-squares procedure for gradient
147  reconstruction on unstructured meshes.  In: AIAA 2003-3986. 16th {AIAA}
148  {C}omputational {F}luid {D}ynamics {C}onference; June 23--26, 2003; Orlando,
149  {F}lorida.
150
151\bibitem{Scovazzi2008}
152Scovazzi G, Love E, Shashkov M. Multi-scale {L}agrangian shock hydrodynamics on
153  {Q1/P0} finite elements: {T}heoretical framework and two-dimensional
154  computations.  {\it Comput {M}ethod {A}ppl {M}. }2008;197(9--12):1056--1079.
155
156\end{thebibliography}
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