The electronic complexity of the ground-state of the FeMo cofactor of nitrogenase as relevant to quantum simulations

Creators: Li, Zhendong; Li, Junhao; Dattani, Nikesh S.; Umrigar, C. J.; Chan, Garnet Kin-Lic

Abstract

We report that a recent active space model of the nitrogenase FeMo cofactor, proposed in the context of simulations on quantum computers, is not representative of the electronic structure of the FeMo cofactor ground-state. A more representative model does not affect much certain resource estimates for a quantum computer such as the cost of a Trotter step, while strongly affecting others such as the cost of adiabatic state preparation. Thus, conclusions should not be drawn from the complexity of quantum or classical simulations of the electronic structure of this system in this active space. We provide a different model active space for the FeMo cofactor that contains the basic open-shell qualitative character, which may be useful as a benchmark system for making resource estimates for classical and quantum computers.

Additional Information

© 2019 Published under license by AIP Publishing. Submitted: 26 September 2018; Accepted: 10 December 2018; Published Online: 8 January 2019. Z.L. and G.K.-L.C. were supported by the U.S. National Science Foundation via No. CHE-1665333. J.L. and C.J.U. were supported by AFOSR, Grant No. FA9550-18-1-0095. One of the SHCI computations was performed on the Bridges computer at the Pittsburgh Supercomputing Center supported by NSF, Grant No. ACI-1445606, as part of the XSEDE program supported by NSF, Grant No. ACI-1548562.

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