DOAJ Open Access 2024

Matrix product state ansatz for the variational quantum solution of the Heisenberg model on Kagome geometries

Younes Javanmard Ugne Liaubaite Tobias J. Osborne Xusheng Xu Man-Hong Yung

Abstrak

The Variational Quantum Eigensolver (VQE) algorithm, as applied to finding the ground state of a Hamiltonian, is particularly well-suited for deployment on noisy intermediate-scale quantum (NISQ) devices. Here, we utilize the VQE algorithm with a quantum circuit ansatz inspired by the Density Matrix Renormalization Group (DMRG) algorithm. To ameliorate the impact of realistic noise on the performance of the method, we employ zero-noise extrapolation. We find that, with realistic error rates, our DMRG–VQE hybrid algorithm delivers good results for strongly correlated systems. We illustrate our approach with the Heisenberg model on a Kagome lattice patch and demonstrate that DMRG–VQE hybrid methods can locate and faithfully represent the physics of the ground state of such systems. Moreover, the parameterized ansatz circuit used in this work is low depth and requires a reasonably small number of parameters, so it is efficient for NISQ devices.

Topik & Kata Kunci

Atomic physics. Constitution and properties of matter

Penulis (5)

Younes Javanmard

Ugne Liaubaite

Tobias J. Osborne

Xusheng Xu

Man-Hong Yung

Format Sitasi

APA MLA BibTeX

Javanmard, Y., Liaubaite, U., Osborne, T.J., Xu, X., Yung, M. (2024). Matrix product state ansatz for the variational quantum solution of the Heisenberg model on Kagome geometries. https://doi.org/10.1063/5.0215573

Akses Cepat

PDF tidak tersedia langsung

Cek di sumber asli →

Lihat di Sumber doi.org/10.1063/5.0215573

Informasi Jurnal

Tahun Terbit: 2024
Sumber Database: DOAJ
DOI: 10.1063/5.0215573
Akses: Open Access ✓