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An efficient adaptive variational quantum solver of the Schrödinger equation based on reduced density matrices

Jie Liu, Zhenyu Li, Jinlong Yang

2021The Journal of Chemical Physics43 citationsDOIOpen Access PDF

Abstract

Recently, adaptive variational quantum algorithms, e.g., Adaptive Derivative-Assembled Pseudo-Trotter-Variational Quantum Eigensolver (ADAPT-VQE) and Iterative Qubit-Excitation Based-Variational Quantum Eigensolver (IQEB-VQE), have been proposed to optimize the circuit depth, while a huge number of additional measurements make these algorithms highly inefficient. In this work, we reformulate the ADAPT-VQE with reduced density matrices (RDMs) to avoid additional measurement overhead. With Valdemoro's reconstruction of the three-electron RDM, we present a revised ADAPT-VQE algorithm, termed ADAPT-V, without any additional measurements but at the cost of increasing variational parameters compared to the ADAPT-VQE. Furthermore, we present an ADAPT-Vx algorithm by prescreening the anti-Hermitian operator pool with this RDM-based scheme. ADAPT-Vx requires almost the same variational parameters as ADAPT-VQE but a significantly reduced number of gradient evaluations. Numerical benchmark calculations for small molecules demonstrate that ADAPT-V and ADAPT-Vx provide an accurate description of the ground- and excited-state potential energy curves. In addition, to minimize the quantum resource demand, we generalize this RDM-based scheme to circuit-efficient IQEB-VQE algorithm and achieve significant measurement reduction.

Topics & Concepts

Benchmark (surveying)QuantumDensity matrixSolverQuantum algorithmOperator (biology)Applied mathematicsScheme (mathematics)AlgorithmMathematicsQuantum computerIterative methodComputer scienceEnergy (signal processing)Mathematical optimizationQuantum circuitConvergence (economics)Variational methodDevelopment (topology)Quantum systemQuantum phase estimation algorithmStatistical physicsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyMechanical and Optical Resonators
An efficient adaptive variational quantum solver of the Schrödinger equation based on reduced density matrices | Litcius