Dynamically generated JP=1/2-(3/2-) singly charmed and bottom heavy baryons

Approximate heavy-quark spin and flavor symmetry and chiral symmetry play an important role in our understanding of the nonperturbative regime of strong interactions. In this work, utilizing the unitarized chiral perturbation theory, we explore the consequences of these symmetries in the description...

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Veröffentlicht in:	Physical review. D 2015-07, Vol.92 (1)
Hauptverfasser:	Lu, Jun-Xu, Zhou, Yu, Chen, Hua-Xing, Xie, Ju-Jun, Geng, Li-Sheng
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Sprache:	eng
Schlagworte:	Baryons Channels Charm (particle physics) Constants Lattices Perturbation theory Quantum chromodynamics Symmetry
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container_title	Physical review. D
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creator	Lu, Jun-Xu Zhou, Yu Chen, Hua-Xing Xie, Ju-Jun Geng, Li-Sheng
description	Approximate heavy-quark spin and flavor symmetry and chiral symmetry play an important role in our understanding of the nonperturbative regime of strong interactions. In this work, utilizing the unitarized chiral perturbation theory, we explore the consequences of these symmetries in the description of the interactions between the ground-state singly charmed (bottom) baryons and the pseudo-Nambu-Goldstone bosons. In particular, at leading order in the chiral expansion, by fixing the only parameter in the theory to reproduce the [Lambda]b(5912)[[Lambda]b(5920)] or the [Lambda]c(2595)[[Lambda]c(2625)], we predict a number of dynamically generated states, which are contrasted with those of other approaches and available experimental data. In anticipation of future lattice QCD simulations, we calculate the corresponding scattering lengths and compare them to the existing predictions from a O(p3) chiral perturbation theory study. In addition, we estimate the effects of the next-to-leading-order potentials by adopting heavy-meson Lagrangians and fixing the relevant low-energy constants using either symmetry or naturalness arguments. It is shown that higher-order potentials play a relatively important role in many channels, indicating that further studies are needed once more experimental or lattice QCD data become available.
doi_str_mv	10.1103/PhysRevD.92.014036
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In this work, utilizing the unitarized chiral perturbation theory, we explore the consequences of these symmetries in the description of the interactions between the ground-state singly charmed (bottom) baryons and the pseudo-Nambu-Goldstone bosons. In particular, at leading order in the chiral expansion, by fixing the only parameter in the theory to reproduce the [Lambda]b(5912)[[Lambda]b(5920)] or the [Lambda]c(2595)[[Lambda]c(2625)], we predict a number of dynamically generated states, which are contrasted with those of other approaches and available experimental data. In anticipation of future lattice QCD simulations, we calculate the corresponding scattering lengths and compare them to the existing predictions from a O(p3) chiral perturbation theory study. In addition, we estimate the effects of the next-to-leading-order potentials by adopting heavy-meson Lagrangians and fixing the relevant low-energy constants using either symmetry or naturalness arguments. 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In particular, at leading order in the chiral expansion, by fixing the only parameter in the theory to reproduce the [Lambda]b(5912)[[Lambda]b(5920)] or the [Lambda]c(2595)[[Lambda]c(2625)], we predict a number of dynamically generated states, which are contrasted with those of other approaches and available experimental data. In anticipation of future lattice QCD simulations, we calculate the corresponding scattering lengths and compare them to the existing predictions from a O(p3) chiral perturbation theory study. In addition, we estimate the effects of the next-to-leading-order potentials by adopting heavy-meson Lagrangians and fixing the relevant low-energy constants using either symmetry or naturalness arguments. It is shown that higher-order potentials play a relatively important role in many channels, indicating that further studies are needed once more experimental or lattice QCD data become available.</abstract><doi>10.1103/PhysRevD.92.014036</doi></addata></record>
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subjects	Baryons Channels Charm (particle physics) Constants Lattices Perturbation theory Quantum chromodynamics Symmetry
title	Dynamically generated JP=1/2-(3/2-) singly charmed and bottom heavy baryons
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