RQC Seminar
49th RQC Seminar
講演者
奥田 拓也 博士
( 東京大学大学院総合文化研究科 広域科学専攻相関基礎科学系自然構造解析学講座 )日程
2023年5月26日(金) 14:00 - 15:00 (JST)
開催場所
ハイブリッド(ZOOM・ 和光地区 研究本館3階 セミナー室(345-347) C01)
講演タイトル
Measurement-based quantum simulation of Abelian lattice gauge theories
お問合せ
rqc_info[at]ml.riken.jp
講演概要
Numerical simulation of lattice gauge theories is an indispensable tool in high energy physics, and their quantum simulation is expected to become a major application of quantum computers in the future. In this talk, we propose a measurement-based scheme for the digital quantum simulation of Abelian lattice gauge theories. The scheme uses an entangled resource state that reflects the spacetime structure of each gauge theory. We show that sequential single-qubit measurements with the bases adapted according to the former measurement outcomes induce a deterministic Hamiltonian quantum simulation of the gauge theory on the boundary. We demonstrate that the resource state has a symmetry-protected topological order with respect to generalized global symmetries that are related to the symmetries of the simulated gauge theories on the boundary. Our procedure can be generalized to the simulation of Kitaev's Majorana chain on a fermionic resource state. We also study the imaginary-time quantum simulation with two-qubit measurements and post-selections, and a classical-quantum correspondence, where the statistical partition function of the gauge theory is written as the overlap between the product of two-qubit measurement bases and the wave function of the resource state. Based on arXiv:2210.10908 with H. Sukeno.