Single-channel and single-energy partial-wave analysis with continuity improved through minimal phase constraints

IF 3.1 2区 物理与天体物理 Q1 Physics and Astronomy
A. Švarc, R. L. Workman
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引用次数: 0

Abstract

Single-energy partial-wave analysis has often been applied as a way to fit data with minimal model dependence. However, remaining unconstrained, partial waves at neighboring energies will vary discontinuously because the overall amplitude phase cannot be determined through single-channel measurements. This problem can be mitigated through the use of a constraining penalty function based on an associated energy-dependent fit. However, the weight given to this constraint results in a biased fit to the data. In this paper, for the first time, we explore a constraining function which does not influence the fit to data. The constraint comes from the overall phase found in multichannel fits which, in the present study, are the Bonn-Gatchina and Jülich-Bonn multichannel analyses. The data are well reproduced and weighting of the penalty function does not influence the result. The method is applied to KΛ photoproduction data and all observables can be maximally well reproduced. While the employed multichannel analyses display very different multipole amplitudes, we show that the major difference between two sets of multipoles can be related to the different overall phases.

Abstract Image

通过最小相位约束改善连续性的单通道和单能量部分波分析
单能量偏波分析通常被用作一种以最小模型依赖性拟合数据的方法。然而,由于单通道测量无法确定整体振幅相位,因此在无约束的情况下,相邻能量的部分波将会不连续地变化。这个问题可以通过使用基于相关能量依赖拟合的约束惩罚函数来缓解。然而,赋予该约束的权重会导致数据拟合的偏差。在本文中,我们首次探索了一种不影响数据拟合的约束函数。该约束来自多通道拟合中发现的整体相位,在本研究中,该相位是波恩-加特契纳和尤利希-波恩多通道分析中发现的。数据得到了很好的再现,惩罚函数的加权对结果没有影响。该方法适用于 KΛ 光生成数据,所有观测值都能得到最大程度的良好再现。虽然所采用的多通道分析显示了非常不同的多极子振幅,但我们表明,两组多极子之间的主要差异可能与不同的总体相位有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Physical Review C
Physical Review C 物理-物理:核物理
CiteScore
5.70
自引率
35.50%
发文量
0
审稿时长
1-2 weeks
期刊介绍: Physical Review C (PRC) is a leading journal in theoretical and experimental nuclear physics, publishing more than two-thirds of the research literature in the field. PRC covers experimental and theoretical results in all aspects of nuclear physics, including: Nucleon-nucleon interaction, few-body systems Nuclear structure Nuclear reactions Relativistic nuclear collisions Hadronic physics and QCD Electroweak interaction, symmetries Nuclear astrophysics
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