def show_gdos(self, workspace_name): slice_cache = self._slice_cache[workspace_name] plot_cached_slice(slice_cache, slice_cache.gdos)
def show_d2sigma(self, workspace_name): slice_cache = self._slice_cache[workspace_name] plot_cached_slice(slice_cache, slice_cache.d2sigma)
def show_symmetrised(self, workspace_name): slice_cache = self._slice_cache[workspace_name] plot_cached_slice(slice_cache, slice_cache.symmetrised)
def show_dynamical_susceptibility(self, workspace_name): slice_cache = self._slice_cache[workspace_name] plot_cached_slice(slice_cache, slice_cache.chi)
def show_dynamical_susceptibility_magnetic(self, workspace_name): slice_cache = self._slice_cache[workspace_name] plot_cached_slice(slice_cache, slice_cache.chi_magnetic) set_colorbar_label('chi\'\'(Q,E) |F(Q)|$^2$ ($mu_B$ $meV^{-1} sr^{-1} f.u.^{-1}$')
def show_scattering_function(self, workspace_name): slice_cache = self._slice_cache[workspace_name] plot_cached_slice(slice_cache, slice_cache.scattering_function)
def show_dynamical_susceptibility_magnetic(self, workspace_name): slice_cache = self._slice_cache[workspace_name] plot_cached_slice(slice_cache, slice_cache.chi_magnetic) set_colorbar_label( 'chi\'\'(Q,E) |F(Q)|$^2$ ($mu_B$ $meV^{-1} sr^{-1} f.u.^{-1}$')
def show_scattering_function(self, workspace_name): slice_cache = self._slice_cache[workspace_name] quadmesh = plot_cached_slice(slice_cache, slice_cache.scattering_function) return quadmesh