Output data used for the Paper 
"Controlling charge dynamics in nanopatterned spintronic terahertz emitters",
which has been published in Physical Review Applied.

The folder "Fig 2" contains the data for Figure 2 of the publication: 
	- the file "Fig2a_Time_domain_EOS_nSTE+sapphire.txt" contains the time-domain electro-optic signal data.
	- the file "Fig2b_Spectral_Amplitude_EOS_nSTE+sapphire.txt" is the Spectral Amplitudes of nanoSTEs and thin film STE which are obtained after the application of von Hann window of 0.6 ps and FFT of the time domain EOS signal. 
	- the file "Fig2b_Wave_Impedance_STE_on_Sapphire.txt" contains the calculated wave impedance of the thin film trilayer STE on Sapphire.  
	- the file "Fig2c_Transfer_Function_amplitude_EOS_nSTE+sapphire.txt" contains the transfer function of nanoSTEs obtained by dividing the spectral amplitudes of nanoSTEs by the spectral amplitude of the reference thin film STE.

The folder "Fig 3" contains the data for Figure 3 of the publication:
	- "Fig3c_Spectral_Amplitude_analytical_nSTE+sapphire.txt" contains the spectral amplitudes of the nanoSTEs and the thin film STE obtained analytically.
	- "Fig3d_Transfer_Function_amplitude_analytical_nSTE+sapphire.txt" contains the transfer functions of the nanoSTEs obtained by dividing the spectral amplitudes of nanoSTEs by the spectral amplitude of the reference thin film STE.

The folder "Fig 4" contains the data for Figure 4 of the publication which shows the behaviour of nanoSTEs on Glass substrate:
	- the file "Fig4a_Spectral_Amplitude_EOS_nSTE+glass.txt" contains the Spectral Amplitude of nanoSTEs and thin film STE on Glass substrate, which are obtained after the application of von Hann window of 0.6 ps and FFT of the time domain EOS signal. 
	- the file "Fig4a_Wave_Impedance_STE_on_Glass.txt" contains the calculated wave impedance of the thin film trilayer STE on Glass.  
	- the file "Fig4b_Transfer_Function_amplitude_EOS_nSTE+glass.txt" contains the transfer function of nanoSTEs obtained by dividing the spectral amplitudes of nanoSTEs by the spectral amplitude of the reference thin film STE.
	- "Fig4c_Spectral_Amplitude_analytical_nSTE+glass.txt" contains the spectral amplitudes of the nanoSTEs and the thin film STE obtained analytically.
	- "Fig4d_Transfer_Function_amplitude_analytical_nSTE+glass.txt" contains the transfer functions of the nanoSTEs obtained by dividing the spectral amplitudes of nanoSTEs by the spectral amplitude of the reference thin film STE.

The folder "Fig 5" contains the data for Figure 3 of the publication showing the phase information of transfer function:
	- "Fig5a_Transfer_Function_phase_EOS_nSTE+sapphire.txt" contains the phase information of the transfer functions of the nanoSTEs on Sapphire substrate obtained from the experiment.
	- "Fig5b_Transfer_Function_phase_analytical_nSTE+sapphire.txt" contains the phase information of the transfer functions of the nanoSTEs on Sapphire substrate obtained analytically.
	- "Fig5c_Transfer_Function_phase_EOS_nSTE+glass.txt" contains the phase information of the transfer functions of the nanoSTEs on Glass substrate obtained from the experiment.
	- "Fig5d_Transfer_Function_phase_analytical_nSTE+glass.txt" contains the phase information of the transfer functions of the nanoSTEs on Glass substrate obtained analytically.

The folder "Fig 6" contains the data for Figure 6 of the publication:
	- The file contains the wave transmission data obtained from the CST simulation. It contains the transverse electric and transverse magnetic behaviour for the nanoSTEs on Sapphire substrate.

The folder "Fig 7" contains the data for Figure 7 of the publication:
	- The files contain both the experimental and analytical data for the transfer functions of the nanoSTEs of different lengths, widths and spacings.

The folder "Fig 8" contains the data for Figure 8 of the publication:
	- The files contain the phase information for both the experimental and analytical data for the transfer functions of the nanoSTEs of different lengths, widths and spacings.