Supplementary material for the paper titled:
A two-step quadrature-based variational calculation of
ro-vibrational levels and wavefunctions of CO2 using a bisector-x
body-fixed frame
Xiao-Gang Wang∗ and Tucker Carrington Jr.


1) j0.pdf
J = 0 A+ levels up to 20000 cm-1


2)
All the levels up to 20000 cm-1 for calculations referred to in Table V
J10e-final.txt    J = 10, A+ levels   
J20e-final.txt    J = 20, A+ levels   
J30e-final.txt    J = 30, A+ levels       
J40e-final.txt    J = 40, A+ levels       
J50e-final.txt    J = 50, A+ levels       
J60e-final.txt    J = 60, A+ levels       
J70e-final.txt    J = 70, A+ levels       
J74e-final.txt    J = 74, A+ levels       
J80e-final.txt    J = 80, A+ levels       
J90e-final.txt    J = 90, A+ levels       
J100e-final.txt   J =100, A+ levels      
J11e-final.txt    J = 11, A+ levels          
J31e-final.txt    J = 31, A+ levels        
J75e-final.txt    J = 75, A+ levels       

For each level, we give its energy, the largest three coefficients (c_i) in the v^{(K)} basis,  the corresponding K(K_i) and  v^{(K)} energies(E_i).
An example is given for the first level of J100e-final.txt
        energy wrt zpe   c1       K1      E1            c2       K2 E2          c3       K3 E3
    1   3927.633444215   0.9948   0       0.000003709   0.0769   0  1285.4143   0.0653   0  1388.1866
