STM break-junction data for:
Fe-1 (data acquired at a bias voltage of 100 mV)
Co-1 (data acquired at a bias voltage of 700 mV)
Fe-2 (data acquired at a bias voltage of 100 mV)
Co-2 (data acquired at a bias voltage of 100 mV)
L1   (data acquired at a bias voltage of 300 mV)

	Processing the raw data of Fe-1, Fe-2, Co-2, and L1:
		Scanmaster python code included to process the raw data of all compounds, except Co-1.

		To analyse raw gz data:
		- copy the desired .gz file into the "raw" folder within "Python Scanmaster"
		- run chopper.py
		- run sm3000.py
			- select "scan analysis"->"read all scans in folder"
			- select "settings"->"data input"->set correct "tip sample bias" in volts
			- select "file"->"open"->"chopped[]"->first file called "slice0000.txt"
			- select "scan analysis"->"read scans to memory"
			- select "scan analysis"->"export scans in memory to file"
	Processed txt files are now in the "exportedscans" folder, optionally they can be merged into a single txt file by running the "alldata.bat" file.

	Processing the raw data of Co-1:
		Labview VI included, as well as an executable file to process the raw data for Co-1.

		To analyse raw zip data:
		- open the labview NFS_Cruncher.exe (may require installation of Labview runtime)
		- open the folder that contains the raw data
		- select a cut-off value slightly below G0, e.g. "0.9" or "0.8"
		- run the vi to process the raw data
		- press save to export the processed scans
	Processed txt files are now in the "processed" folder, optionally they can be merged into a single txt file by running the "alldata.bat" file.


For further analysis import scans into graphing software, e.g. Origin/Matlab/Igor/Prism/etc.

Please e-mail ijplanje@gmail.com or nichols@liverpool.ac.uk for any questions.