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 # flame_wave
 
-This is the XRB flame setup, which was used in Eiden et al. 2020
-(https://ui.adsabs.harvard.edu/abs/2020ApJ...894....6E).  That
-original paper used "boosted" flames, but we no longer boost the flame
-speed.  You can find the inputs file for boosted flame in Castro
-versions 21.01 and earlier.
+This is the XRB flame setup.  I has been used for several
+papers, including:
 
-The current set of inputs files are:
+* Eiden et al. 2020 (https://ui.adsabs.harvard.edu/abs/2020ApJ...894....6E)
 
-* inputs_He:
+  This modeled pure He flames and used "boosted" flames, which were
+  artificially sped up.
 
-  pure He flames.  This includes the inputs files for the follow-on
-  paper, Harpole et al. (in prep).
+* Harpole et al. 2021 (https://ui.adsabs.harvard.edu/abs/2021ApJ...912...36H/abstract)
 
-  a 3-d setup is also there
+  This also modeled pure He flames, but without any boosting.  A variety of
+  rotation rates were explored.  The inputs files for this are in `inputs_He/`
 
-* inputs_H_He:
+* Zingale et al. 2023 (https://ui.adsabs.harvard.edu/abs/2023ApJ...952..160Z/abstract)
 
-  mixed H/He flames.  These are intended to be run with the rprox
-  network.
+  This explored both 2D and 3D pure He flames.  Another change was in
+  the lower boundary condition -- a reflecting boundary was used an
+  `castro.use_pslope` was enabled.  The inputs files for this are in
+  `inputs_He/` and also available on Zenodo:
+  https://zenodo.org/record/7692201
+
+* Chen et al. 2023 (https://ui.adsabs.harvard.edu/abs/2023ApJ...955..128C/abstract)
+
+  This looked at 2D pure He flames and explored different reaction networks.
+  The inputs files are available on Zenodo: https://zenodo.org/record/8117761