Flavor-spin symmetry of the 
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Chen, Kan; Wang, Bo

doi:10.1103/physrevd.109.114028

Phys. Rev. D

2024

DOI: 10.1103/physrevd.109.114028

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Flavor-spin symmetry of the PψN/HΩcccN and

Kan Chen,

Bo Wang

Abstract: Based on a contact Lagrangian that incorporates the SU(3) flavor and SU(2) spin symmetries, we discuss the symmetry properties of the interactions among the heavy flavor meson-baryon PψN, PψsΛ (with quark components [nc¯][nnc], [sc¯][nnc], or [nc¯][nsc]) systems and dibaryon HΩcccN, HΩcccsΛ (with quark components [nnc][ncc], [nnc][scc], or [nsc][ncc]) systems (n=u, d). The light quark components of the PψN (PψsΛ) and HΩcccN (HΩcccsΛ) systems have identical flavors, the interactions generated from the exchanges… Show more

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Cited by 2 publications

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Spectrum of molecular hexaquarks

Wang,

Chen,

Meng

et al. 2024

Phys. Rev. D

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We investigate the mass spectra of molecular-type hexaquark states in the dibaryon systems. These systems are composed of the charmed baryons [Σc(*),Ξc(′,*)], doubly charmed baryons [Ξcc(*)], and hyperons [Σ(*),Ξ(*)]. We consider all possible combinations of particle-particle and particle-antiparticle pairs, including the S-wave spin multiplets in each combination. We establish the underlying connections among the molecular tetraquarks, pentaquarks, and hexaquarks with the effective quark-level interactions. We find that the existence of molecular states in DD*, DD¯*, and ΣcD¯(*) systems leads to the emergence of a large number of deuteronlike hexaquarks in the heavy flavor sectors. Currently, there have been several experimental candidates for molecular tetraquarks and pentaquarks. The experimental search for near-threshold hexaquarks will further advance the establishment of the underlying dynamical picture of hadronic molecules and deepen our understanding of the role of spin-flavor symmetry in near-threshold residual strong interactions. Published by the American Physical Society 2024

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Spectrum of molecular hexaquarks

Wang,

Chen,

Meng

et al. 2024

Phys. Rev. D

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From PψN and PψsΛ to
Chen,
Wang
2024
Phys. Rev. D
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We investigate the interactions of (c¯q)(c¯q)/(ccq)(c¯q)/(ccq)(ccq) dihadron systems based on a contact Lagrangian possessing the SU(3) flavor and SU(2) spin symmetries. Under the assumptions of two scenarios for the JP quantum numbers of PψN(4440) and PψN(4457) states, we obtain the parameters (g˜s, g˜a) introduced from this contact Lagrangian. Then we include the SU(3) breaking effect by introducing a factor gx, this quantity can be constrained by the experimental mass of PψsΛ(4338) state. We can reproduce the mass of Tccf(3875) state with the parameters extracted from the observed PψN states, the fairly good description of the masses of the observed PψN/PψsΛ/Tccf states motivates us to investigate the possible molecular candidates in the T¯ccf/PψcΛ/HΩccccΛ systems within the same framework. Then we proceed to discuss the existences of T¯ccs¯θ/PψcsN/HΩccccsN states by investigating the SU(3) breaking effects. Our results show that the states in the T¯ccs¯θ/PψcsN systems can hardly form bound states, while the states in the HΩccccsN system can form bound states due to their larger reduced masses. Published by the American Physical Society 2024

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Flavor-spin symmetry of the PψN/HΩcccN and

Cited by 2 publications

References 58 publications

Spectrum of molecular hexaquarks

Spectrum of molecular hexaquarks

From PψN and PψsΛ to
Chen,
Wang
2024
Phys. Rev. D
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0
0
0
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Flavor-spin symmetry of the PψN/HΩcccN and

Cited by 2 publications

References 58 publications

Spectrum of molecular hexaquarks

Spectrum of molecular hexaquarks

From PψN and PψsΛ to Chen, Wang 2024Phys. Rev. D0000View full textAdd to dashboardCite

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From PψN and PψsΛ to
Chen,
Wang
2024
Phys. Rev. D
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