How to efficiently compute pure scattering models ================================================= In some cases, for example if the wavelength is short enough, it is possible to ignore dust emission when computing images. In such cases, we can make Hyperion run faster by disabling the temperature calculation as described in :ref:`pure-scattering`, and also by producing images only at select wavelengths using :ref:`monochromatic-rt`. The following model demonstrates how to make an image of the central region of a flared disk in order to image the inner rim: .. literalinclude:: scripts/pure_scattering_setup.py :language: python .. note:: If you want to run this model you will need to download the :download:`kmh_lite.hdf5 ` dust file into the same directory as the script above (**disclaimer**: do not use this dust file outside of these tutorials!). Once this model has run, we can make a plot of the image (including a linear polarization map): .. literalinclude:: scripts/pure_scattering_plot.py :language: python which gives: .. image:: scripts/pure_scattering_inner_disk.png :width: 600px :align: center This model takes under 4 minutes to run on 8 cores, which is less than would normally be required to produce an image with this signal-to-noise in scattered light.