Quantum Scientific Computation and Quantum Artificial Intelligence量子科学计算与量子人工智能
Organizer:
Jin-Peng Liu 刘锦鹏
Speaker:
Leyu Chen (Beihang University)
Time:
Wednesday, 10:30-11:30 am
Dec 24, 2025
Venue:
Ningzhai 204
Voov: 963-193-309
Title:
Quantum Simulation of Rapidly Distorted Turbulence via LCHS
Abstract:
We propose an end-to-end quantum algorithm to simulate rapidly distorted turbulence via linear combination of Hamiltonian Simulation (LCHS). The algorithm comprises three primary stages: the efficient preparation of an initial turbulent state with a prescribed energy spectrum, its subsequent time evolution via LCHS, and the direct measurement of key turbulence statistics. Our analysis indicates that the algorithm can offer a practical quantum speedup over the classical simulation methods for a sufficiently large computational grid. We evaluate the quantum resource requirements for simulating a minimal instance of non-trivial turbulence with classical validation. The numerical results show excellent agreement with ground-truth solutions, capturing both the qualitative evolution of turbulent fields and the quantitative behavior of statistics, including the Reynolds stresses and the fluctuating velocity spectrum.
References: [1] Zhaoyuan Meng, Leyu Chen, Jin-Peng Liu, and Guowei He. Toward end-to-end quantum simulation of rapidly distorted turbulence. 2025. https://arxiv.org/abs/2511.18802.
Bio: Leyu Chen(陈乐宇), LMIB and School of Mathematical Sciences, Beihang University.
