Theory data and Python scripts for generating the theory figures Figs.2E-F and Figs.3C-F
of the main text of the Science article entitled:

"Magnetic field universality of the Kondo effect revealed by thermocurrent spectroscopy",
by C. Hsu, T. A. Costi, D. Vogel, C. Wegeberg, M. Mayor, H.S.J. van der Zant and P. Gehring.

Theory data in the supplementary materials of the above paper can be made available upon 
reasonable request from Dr T. A. Costi, Forschungszentrum Juelich.

All theory data is for the Anderson impurity model in a magnetic field. he Kondo scale TK used throughout
is that defined in SI from the zero temperature susceptibility: chi(T=0)=(gmu_B)^2/(4k_B T_K) and is
evaluated exactly for each parameter used within the numerical renormalization group method:

R. Bulla, T. A. Costi and T. Pruschke, Rev. Mod. Phys. 80, 395 (2008).

Figures 2E-F are numerical renormalization group calculations of the spectral function of
the Anderson model in a magnetic field.

Figures 3C-D are equation of motion results for the nonlinear thermocurrent at sevreal magnetic fields.

Figures 3E-F are higher-order Fermi-liquid calculations evaluated within the numerical renormalization
group for the zero-bias slope of the thermocurrent as a function of magnetic field. Also shown in 
Fig. 3F are the experimental data for the thermocurrent slope and the result for the noninteracting case.

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