=====================
matter.setupMicroGap
=====================

.. currentmodule:: nucleardatapy.matter.setupmicrogap

.. Don't include inherited members to keep the doc short
.. automodule:: nucleardatapy.matter.setup_micro_gap
	:members:

Here are a set of figures which are produced with the Python sample: /nucleardatapy_sample/matter_setupMicroGap_plot.py
	   
.. figure:: ../../../version-1.0/nucleardatapy_samples/figs/plot_matter_setupMicro_gap_1s0_NM.png
	:width: 70%
	:alt: map to buried treasure

	This figure shows the 1S0 pairing gap in neutron matter (NM) over the Fermi energy (top) and the pairing gap (bottom) as function of the density (left) and the neutron Fermi momentum (right) for the models available in the nucleardatapy toolkit.

.. figure:: ../../../version-1.0/nucleardatapy_samples/figs/plot_matter_setupMicro_gap_1s0_SM.png
	:width: 70%
	:alt: map to buried treasure

	This figure shows the 1S0 pairing gap in symmetric matter (SM) over the Fermi energy (top) and the pairing gap (bottom) as function of the density (left) and the neutron Fermi momentum (right) for the models available in the nucleardatapy toolkit.

.. figure:: ../../../version-1.0/nucleardatapy_samples/figs/plot_matter_setupMicro_gap_3pf2_NM.png
	:width: 70%
	:alt: map to buried treasure

	This figure shows the 3PF2 pairing gap in neutron matter (NM) over the Fermi energy (top) and the pairing gap (bottom) as function of the density (left) and the neutron Fermi momentum (right) for the models available in the nucleardatapy toolkit.