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Main Authors: Molina, Raquel, Xiao, Chu-Wen, Liang, Wei-Hong, Oset, Eulogio
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2310.12593
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author Molina, Raquel
Xiao, Chu-Wen
Liang, Wei-Hong
Oset, Eulogio
author_facet Molina, Raquel
Xiao, Chu-Wen
Liang, Wei-Hong
Oset, Eulogio
contents The $N^*(1535)$ can be dynamically generated in the chiral unitary approach with the coupled channels, $K^0 Σ^+, K^+ Σ^0, K^+ Λ$ and $ηp$. In this work we evaluate the correlation functions for every channel and face the inverse problem. Assuming the correlation functions to correspond to real measurements, we conduct a fit to the data within a general framework in order to extract the information contained in these correlation functions. The bootstrap method is used to determine the uncertainties of the different observables, and we find that, assuming errors of the same order than in present measurements of correlation functions, one can determine the scattering length and effective range of all channels with a very good accuracy. Most remarkable is the fact that the method predicts the existence of a bound state of isospin $\frac{1}{2}$ nature around the mass of the $N^*(1535)$ with an accuracy of $6\; \rm MeV$. These results should encourage the actual measurement of these correlation functions (only the $K^+ Λ$ one is measured so far), which can shed valuable light on the relationship of the $ N^*(1535)$ state to these coupled channels, a subject of continuous debate.
format Preprint
id arxiv_https___arxiv_org_abs_2310_12593
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Correlation functions for the $N^*(1535)$ and the inverse problem
Molina, Raquel
Xiao, Chu-Wen
Liang, Wei-Hong
Oset, Eulogio
High Energy Physics - Phenomenology
High Energy Physics - Experiment
The $N^*(1535)$ can be dynamically generated in the chiral unitary approach with the coupled channels, $K^0 Σ^+, K^+ Σ^0, K^+ Λ$ and $ηp$. In this work we evaluate the correlation functions for every channel and face the inverse problem. Assuming the correlation functions to correspond to real measurements, we conduct a fit to the data within a general framework in order to extract the information contained in these correlation functions. The bootstrap method is used to determine the uncertainties of the different observables, and we find that, assuming errors of the same order than in present measurements of correlation functions, one can determine the scattering length and effective range of all channels with a very good accuracy. Most remarkable is the fact that the method predicts the existence of a bound state of isospin $\frac{1}{2}$ nature around the mass of the $N^*(1535)$ with an accuracy of $6\; \rm MeV$. These results should encourage the actual measurement of these correlation functions (only the $K^+ Λ$ one is measured so far), which can shed valuable light on the relationship of the $ N^*(1535)$ state to these coupled channels, a subject of continuous debate.
title Correlation functions for the $N^*(1535)$ and the inverse problem
topic High Energy Physics - Phenomenology
High Energy Physics - Experiment
url https://arxiv.org/abs/2310.12593