Title | Laplace transform based quantum eigenvalue transformation via linear combination of Hamiltonian simulation |
Publication Type | Journal Article |
Year of Publication | 2024 |
Authors | An, D, Childs, AM, Lin, L, Ying, L |
Date Published | 11/6/2024 |
Abstract | Eigenvalue transformations, which include solving time-dependent differential equations as a special case, have a wide range of applications in scientific and engineering computation. While quantum algorithms for singular value transformations are well studied, eigenvalue transformations are distinct, especially for non-normal matrices. We propose an efficient quantum algorithm for performing a class of eigenvalue transformations that can be expressed as a certain type of matrix Laplace transformation. This allows us to significantly extend the recently developed linear combination of Hamiltonian simulation (LCHS) method [An, Liu, Lin, Phys. Rev. Lett. 131, 150603, 2023; An, Childs, Lin, arXiv:2312.03916] to represent a wider class of eigenvalue transformations, such as powers of the matrix inverse, A−k, and the exponential of the matrix inverse, e−A−1. The latter can be interpreted as the solution of a mass-matrix differential equation of the form Au′(t)=−u(t). We demonstrate that our eigenvalue transformation approach can solve this problem without explicitly inverting A, reducing the computational complexity. |
URL | https://arxiv.org/abs/2411.04010 |