A rotationally invariant approach based on Gutzwiller wave function for correlated electron systems

We introduce a rotationally invariant approach combined with the Gutzwiller conjugate gradient minimization method to study correlated electron systems. In the approach, the Gutzwiller projector is parametrized based on the number of electrons occupying the onsite orbitals instead of the onsite configurations. The approach efficiently groups the onsite orbitals according to their symmetry and greatly reduces the computational complexity, which yields a speedup of 20 similar to 50x in the minimal basis energy calculation of dimers. The computationally efficient approach promotes more accurate calculations beyond the minimal basis that is inapplicable in the original approach. A large-basis energy calculation of F-2 demonstrates favorable agreements with standard quantum-chemical calculations Bytautas et al (2007 J. Chem. Phys. 127 164317)

Automated summary

This article introduces a rotationally invariant approach combined with the Gutzwiller conjugate gradient minimization method for studying correlated electron systems. The approach efficiently reduces computational complexity and yields faster energy calculations. Moreover, it provides more accurate results.