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| Main Authors: | , , , , |
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| Format: | Preprint |
| Published: |
2026
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2603.05880 |
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Table of Contents:
- We present a lattice QCD spectroscopy study of the conjectured H dibaryon for 5 different channels at nine different temperatures. The H dibaryon operator is constructed with five different channels which are flavor singlet, flavor 27-plet, $ΛΛ$, $N Ξ$ and $ΣΣ$. The nine different temperatures range from $T/T_c =0.24$ to $T/T_c = 1.90$. The simulations are performed on anisotropic lattice with $N_f=2+1$ flavours of clover fermion at quark mass which corresponds to $m_π=384(4) {\rm MeV} $. The thermal ensembles were provided by the FASTSUM collaboration and the zero temperature ensembles by the Hadspec collaboration. The simulations show that the mass of H-dibaryon for 27-plet channel is the largest at different temperatures, while the mass for $ΣΣ$ channel is the lightest. We also calculate the spectral function of the correlation function of H dibaryon for five channels. The spectral density distributions exhibit similar behavior for the five channels. The mass differences $Δm = m_H - 2\,m_Λ $ of H-dibaryon and $Λ$ pair at $T/T_c =0.24 $ for five channels are also estimated. The results show that $Δm = m_H - 2\,m_Λ $ for channels of 27-plet and $ΛΛ$ is positive, while $Δm = m_H - 2\,m_Λ $ for channels of singlet, $N Ξ$ and $ΣΣ$ is negative.