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Strategies for simulating the time evolution of Hamiltonian lattice field theories

物理 格子(音乐) 统计物理学 理论物理学 哈密顿量(控制论) 晶格场理论 时间演化 经典力学 量子力学 数学 数学优化 声学 规范理论
作者
Siddharth Hariprakash,Neel S. Modi,Michael Kreshchuk,Christopher F. Kane,C. Bauer
出处
期刊:Physical review [American Physical Society]
卷期号:111 (2) 被引量:5
标识
DOI:10.1103/physreva.111.022419
摘要

Simulating the time evolution of quantum field theories given some Hamiltonian H requires developing algorithms for implementing the unitary operator e-iHt. A variety of techniques exist that accomplish this task, with the most common technique used so far being Trotterization, which is a special case of the application of a product formula. However, other techniques exist that promise better asymptotic scaling in certain parameters of the theory being simulated, the most efficient of which are based on the concept of block encoding. In this work we study the performance of such algorithms in simulating lattice field theories. We derive and compare the asymptotic gate complexities of several commonly used simulation techniques in application to Hamiltonian lattice field theories. Using the scalar $\hat{φ}$4 theory as a test, we also perform numerical studies and compare the gate costs required by product formulas and signal-processing-based techniques to simulate time evolution. For the latter, we use the linear combination of unitaries (LCU) construction augmented with the quantum Fourier transform circuit to switch between the field and momentum eigenbases, which leads to immediate order-of-magnitude improvement in the cost of preparing the block encoding. Further, this paper also includes a pedagogical review of the techniques used, in particular product formulas, LCU, qubitization, quantum signal processing, as well as the technique for simulating geometrically-local Hamiltonians developed by Haah, Hastings, Kothari, and Low.
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