Lanczos for lattice QCD matrix elements

arXiv - PHYS - High Energy Physics - Lattice Pub Date : 2024-07-31 DOI:arxiv-2407.21777
Daniel C. Hackett, Michael L. Wagman
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Abstract

Recent work found that an analysis formalism based on the Lanczos algorithm allows energy levels to be extracted from Euclidean correlation functions with faster convergence than existing methods, two-sided error bounds, and no apparent signal-to-noise problems. We extend this formalism to the determination of matrix elements from three-point correlation functions. We demonstrate similar advantages over previously available methods in both signal-to-noise and control of excited-state contamination through example applications to noiseless mock-data as well as calculations of (bare) forward matrix elements of the strange scalar current between both ground and excited states with the quantum numbers of the nucleon.
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网格 QCD 矩阵元素的 Lanczos
最近的研究发现,基于 Lanczos 算法的分析形式主义可以从欧氏相关函数中提取能级,其收敛速度比现有方法更快,误差边界为双侧,且不存在明显的信噪比问题。我们将这一形式主义扩展到从三点相关函数中确定矩阵元素。我们通过对无噪声模拟数据的示例应用,以及对具有核子量子数的基态和激发态之间奇异标量电流的(裸)前向矩阵元素的计算,证明了与以前可用的方法相比,我们在信噪比和激发态污染控制方面都具有类似的优势。
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arXiv - PHYS - High Energy Physics - Lattice
arXiv - PHYS - High Energy Physics - Lattice
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