Hello Erik Forgive the late reply, it's been a busy few days. As I understand things isotropic and spherically symmetric should be the same thing in this case, with an isotropic metric taking the form -a(r)^2 dt^2+b(r)^2 ds^2, so the fact that g_xx=/=g_yy and its value depends on direction is what has me worried.
Nicholas Olsen On Fri., May 13, 2022, 2:28 p.m. Erik Schnetter, <schnet...@gmail.com> wrote: > On Thu, May 12, 2022 at 3:28 AM Nick Olsen <n.olsen.3....@gmail.com> > wrote: > >> Hello Everyone >> >> I am running into a problem where I evolve a Gaussian shell scalar field >> alongside the BSSN equations using the Scalar/ScalarInit/ScalarBase thorns, >> where the initial data is isotropic but evolves to an anisotropic solution. >> More specifically, along the x axis I have g_yy=g_zz and along the z axis I >> have g_xx=g_yy, with g_xx along the x axis equal to g_zz along the z axis, >> despite having isotropic initial conditions. The point is illustrated by >> the first image being the plot of g_xx and g_zz along their respective axes >> at a later time, and the rest of the diagonal metric values being shown in >> the second image. Additionally, T_ij shows a similar problem, where If so, >> T_xx along the x axis and T_zz along the z axis are equal to eachother, but >> not the rest of the diagonal entries of T_ij, which are all equal. >> > > Nils > > What you describe sounds isotropic. > > I assume that by saying "isotropic" you mean "spherically symmetric", i.e. > the solution only depends on the radius r and not on the angles \theta or > \phi. > > If so, then scalars should be the same in every direction, vectors should > point in the radial direction, and tensors will look a bit more > complicated. but "g_xx in the x direction is the same as g_zz in the z > direction" sounds correct: If you rotate this tensor from the x to the z > axis, then you're essentially exchanging x and z directions. > > The tensor itself does not need to remain spherically symmetric. (From > your description above it sounds as if you assumed this was the case.) > > -erik > > > > >> [image: gxxx.PNG][image: gxxz.PNG] >> I have attached the parameter file used to get these results, which is a >> modified version of the test parameter file found in the Scalar thorn >> bundle. >> >> Thanks, >> Nicholas Olsen >> _______________________________________________ >> Users mailing list >> Users@einsteintoolkit.org >> http://lists.einsteintoolkit.org/mailman/listinfo/users >> > > > -- > Erik Schnetter <schnet...@gmail.com> > http://www.perimeterinstitute.ca/personal/eschnetter/ > >
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