Adiabatic Quantum Simulation of Quantum Chemistry

Authors

Ryan Babbush
Peter John Love, Haverford College

Document Type

Journal Article

Role

Author

Standard Number

2045-2322

Journal Title

Scientific Reports

Volume

4

Publication Date

2014

Abstract

We show how to apply the quantum adiabatic algorithm directly to the quantum computation of molecular properties. We describe a procedure to map electronic structure Hamiltonians to 2-body qubit Hamiltonians with a small set of physically realizable couplings. By combining the Bravyi-Kitaev construction to map fermions to qubits with perturbative gadgets to reduce the Hamiltonian to 2-body, we obtain precision requirements on the coupling strengths and a number of ancilla qubits that scale polynomially in the problem size. Hence our mapping is efficient. The required set of controllable interactions includes only two types of interaction beyond the Ising interactions required to apply the quantum adiabatic algorithm to combinatorial optimization problems. Our mapping may also be of interest to chemists directly as it defines a dictionary from electronic structure to spin Hamiltonians with physical interactions.

Repository Citation

Ryan Babbush, Peter J. Love, and Alán Aspuru-Guzik. "Adiabatic Quantum Simulation of Quantum Chemistry." Scientific Reports 4, Article No. 6603. 2014.