G3(MP2)-RAD theory - G3(MP2)B3 for open shell systems

G3(MP2)-RAD is a variant of G3(MP2)B3 theory optimized for open shell systems. The most important changes concern the use of URCCSD(T) instead of UQCISD(T) single point calculations and the replacement of all UMP2 by restricted open shell ROMP2 single point calculations. The G3(MP2)-RAD energy at 0 degree Kelvin E0(G3(MP2)-RAD) is defined as:

E0(G3(MP2)-RAD) = E[URCCSD(T)/6-31G(d)//UB3LYP/6-31G(d)]
        + DE(G3MP2large)
        + DE(HLC)
        + ZPE
        + DE(SO)

The definition of the components being:

DE(G3MP2large) = E[ROMP2(FC)/G3MP2large//UB3LYP/6-31G(d)] - E[ROMP2(FC)/6-31G(d)//UB3LYP/6-31G(d)]

DE(HLC) = -An(beta) - B(n(alpha) - n(beta))
                     A = 9.413 mHartrees; B = 3.969 mHartrees (for molecules)
                     A = 9.438 mHartrees; B = 1.888 mHartrees (for atoms)
                     n(alpha) = No. of alpha valence electrons
                     n(beta) = No. of beta valence electrons

ZPE = 0.9806 * ZPE[B3LYP/6-31G(d)]

The necessary energies can be calculated most efficiently in the following sequence:

Comments:

Literature: