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Exploiting Hidden Low-Rank Structures in Physics

日程 : 2024年2月16日(金) 4:00 pm - 5:00 pm 場所 : 物性研究所本館6階 第5セミナー室 (A615) 講師 : Hiroshi SHINAOKA 所属 : Saitama University 世話人 : 川島直輝 (63260)
e-mail: kawashima@issp.u-tokyo.ac.jp
講演言語 : 英語

Tensor networks are a powerful tool for compressing wave functions and density matrices of quantum systems in physics.Recent developments have shown that tensor network techniques can efficiently compress many functions beyond these traditional objects.Notable examples include the solutions to turbulence in Navier–Stokes equations [1] and the computation of Feynman diagrams [2,3].These advancements have heralded a new era in the use of tensor networks for expediting the resolution of various complex equations in physics.

In this presentation, I will overview our recent research in this domain.Initially, I will discuss the compression of the space-time dependence of the correlation function in quantum systems [3] through the use of the “Quantics Tensor Train.” [4,5] This method leverages the inherent length-scale separation in the system to efficiently represent the function.Our approach demonstrates solving diagrammatic equations in a compressed format.

Subsequently, I will introduce a novel and robust tool named “Quantics Tensor Cross Interpolation.” [6] This method is designed to learn a quantics low-rank representation of a given function, showcasing the versatility and potential of tensor network techniques in handling complex functions in physics.

[1] N. Gourianov et al., Nat. Comput. Sci. 2, 30 (2022).
[2] Y. N. Fernandez et al., PRX 12, 041018 (2022).
[3] H. Shinaoka et al., PRX 13, 021015 (2023).
[4] I. V. Oseledets, Dokl. Math. 80, 653 (2009).
[5] B. N. Khoromskij, Constr. Approx. 34, 257 (2011).
[6] M. K. Ritter, …, H. Shinaoka and X. Waintal, PRL 132, 056501 (2024).

(公開日: 2024年02月06日)