The folder DoublePer contains the following:

Experimental data for material Sr2FeOsO6:

SFOOearlyavg.dat Contains the temperature dependence of early time average asymmetry, described in the text.

SFOOearlyavg.mfit Contains the results of fitting this early time average asymmetry to the broadened step function Eq. (1).

SFOO2expfixL.dat Contains the fit parameters from the purely relaxing function Eq. (2).

SFOOoscfixA.dat Contains the fit parameters from the oscillatory relaxation function Eq. (3).

SFOOoscfixA.mfit Contains the resulting fit parameters from Eq. (4) applied to the oscillatory frequency.

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Experimental data for materials Sr2YOsO6 and Sr2InOsO6:

SYOOavg.dat and SIOOavg.dat Contain the T-dependence of the average asymmetry.

SYOOavg.mfit and SIOOavg.mfit Contain the results of fitting this average asymmetry to the broadened step function Eq. (1).

SYOObesselfixA.dat and SIOObessel.dat Contain the fit parameters from the Besself function relaxation function Eq. (5).

SYOObesselfixA.mfit and SIOObessel.mfit Contain the resulting fit parameters from Eq. (4) applied to the Bessel characteristic frequencies.

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DENSITY FUNCTIONAL OUTPUT:

Directory DFT_Results contains:

Sr2FeOsO6_2x2x1_supercell: 
Relevent input and output files for CASTEP runs performed with for the 2x2x1 supercell.  
      Includes:
	*.usp files		Pseudopotentials
	relax-Sr2FeOsO6.cell	Cell structure input file			
	relax-Sr2FeOsO6.param	Parameter input file
	relax-Sr2FeOsO6.geom  	Geometric optimisation data dump
	relax-Sr2FeOsO6.castep	Output file containing energy and similar data
	relax-Sr2FeOsO6-out.cell       Cell structure output file
	relax-Sr2FeOsO6-out.cif	       Cell structure output in .cif format 
	NOTE			A note about a Warning in the *.castep output
				 file

Sr2FeOsO6_unitcell_scanMinimum: 
Relevent input and output files for the location of the optimum stopping point within the unit cell.
	 General file format: Sr2FeOsO6_mu__${label}${file_type}
	 ${label} labels a given random starting point for the muon
	 ${file-type} lables file type as follows
	       .cell  	     Cell structure input file
	       .param 	     Parameter input file
	       .geom  	     Geometric optimisation data dump
	       .castep	     Output file containing energy and similar data
	       -out.cell     Cell structure output file
	       -out.cif	     Cell structure output in .cif format 
	 File Sr2FeOsO6_mu__energies.txt summarises the energy for each 
	      		      starting point
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MAGNETIC FIELD OUTPUT

General conventions:
	For the stopping point (s.p.)calculations, we include the following 
	 files:
	    dipole.par 	       		     	settings
	    field.scan.abs.units.${label}.out	field output, ${label} 
	    					 corresponds to the label 
						 of a site
            output			        general output

	 Field output files use the following format:
fracX	 fracY 	   fracZ    CartX   CartY   CartZ  FieldX  FieldY FieldZ |Field|
[FRACTIONAL COORDS]	    [CARTESIAN COORDS]	   [MAGNETIC FIELD]

	 Directory name LR=${number} contains output for a calcualtion with 
	 	   Lorentz radius (L.R.) of size ${number}c.

	 For field map calculations, we include:
	     plotscript.gnuplot      gnuplot script used in generating map
	     *out		     field map data (using field map output 
	     			      format)
	     *eps		     field map plot in eps format

Directory magnetic_fields contains:

       NOTE.ABOUT.SCANS		A note about Lorentz radii used for generating
       				  the field maps.
       Sr2FeOsO6:
	NOTE			A note about the points used in stopping point 
			 	 calculations
	relaxed_p1_only 	S.p. calculations for L.R.=50,100,150, relaxed 
				 geometry
	unrelaxed_p1_only 	S.p. calculations for L.R.=50,100,150, unrelaxed
				 geometry				 
 	Fe.graph_for_paper.scan.unrelaxed	Field map for unrelaxed geom.
	
       Sr2InOsO6:
        010_scans		[010] spin orientation scans, L.R.=50
	100_scans		[100] spin orientation scans, L.R.=50
	110_scans		[110] spin orientation scans, L.R.=50
	1b10_scans		[110] spin orientation scans, L.R.=50
	In_graphs_for_paper	Field maps for each spin orientation 
				(mislabelled as Y in the .eps files)

       Sr2YOsO6:
        010_scans		[010] spin orientation scans, L.R.=50,100,150
	100_scans		[100] spin orientation scans, L.R.=50,150
	110_scans		[110] spin orientation scans, L.R.=50,150
	1b10_scans		[110] spin orientation scans, L.R.=50
	Y_graphs_for_paper	Field maps for each spin orientation
	
				
       
