Searching for beauty-fully bound tetraquarks using lattice nonrelativistic QCD

In the framework of the color-magnetic interaction, we systematically investigate the mass spectrum of the tetraquark states composed of four heavy quarks with the QQQQ configuration in this work. We also show their strong decay patterns. Stable or narrow states in the bbbc and bcbc systems are found to be possible. We hope the studies shall be helpful to the experimental search for heavy-full exotic tetraquark states.

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“…This observation is consistent with those in Refs. [74,79,82]. The lowest bbbb mass in [79] and ours are similar.…”

Section: B the Bbbb And Cccc Systemssupporting

confidence: 76%

“…If the P-wave cccc state exists where the orbital angular momentum contributes some repulsion, the lower ground tetraquark states should also exist. Recently, there are further discussions about the properties of fully-heavy tetraquarks [74][75][76][77][78][79][80][81][82][83][84].…”

mentioning

confidence: 99%

Heavy-flavored tetraquark states with the QQQ¯Q¯ configuration

et al. 2018

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“…[22], and the product of its production cross-section at the LHC and the branching fraction to four muons is estimated to be of O(1 fb). However, recent lattice QCD calculations do not find evidence for such a state in the hadron spectrum [23].…”

Section: Introductionmentioning

confidence: 96%

Search for beautiful tetraquarks in the ϒ(1S)μ+μ− invariant-mass spectrum

Aaij

Adeva

Adinolfi

et al. 2018

J. High Energ. Phys.

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“…[46] investigated the mass spectra of the QQQQ states in the Chromomagnetic interaction (CMI) model and concluded that no stable QQQQ states exist. Later, several other approaches, such as the nonrelativistic chiral quark model [47,48], the lattice QCD [49] and other models [50,51] also do not support the existence of the bound QQQQ states.…”

Section: Introductionmentioning

confidence: 99%

Spectrum of the fully-heavy tetraquark state QQQ¯′Q¯
Wang
¹
,
Meng
²
,
Zhu
³

2019
Phys. Rev. D
110
14
69
1
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In this work, we systematically calculate the mass spectra of the S-wave fully heavy tetraquark states bbbb, cccc, and bbcc in two nonrelativistic quark models. A tetraquark state may be an admixture of a 6c −6c state and a3c − 3c one, where 6c −6c(3c − 3c) denotes the color configuration with a 6c (3c) diquark and a6c (3c) antidiquark. For the tetraquark states bbbb and cccc with J P C = 0 ++ , the 6c −6c state is lower than the3c − 3c one in both the two quark models, while the order of the bbcc states depend on models. The 6c −6c and3c − 3c mixing effects are induced by the hyperfine interactions between the diquark and antidiquark, while the contributions from the one-gluon-exchange (OGE) Coulomb or the linear confinement potentials vanish for the QQQ Q system. With the couple-channel effects, we obtain the similar mass spectra. The numerical results show that the ground QQQ Q (Q = b, c and Q = b, c) tetraquark states are located above the corresponding scattering states, which indicates that there may not exist a bound state in the scheme of the two quark models.

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Searching for beauty-fully bound tetraquarks using lattice nonrelativistic QCD

Cited by 129 publications

References 71 publications

Heavy-flavored tetraquark states with the QQQ¯Q¯ configuration

Heavy-flavored tetraquark states with the QQQ¯Q¯ configuration

Search for beautiful tetraquarks in the ϒ(1S)μ+μ− invariant-mass spectrum

Spectrum of the fully-heavy tetraquark state QQQ¯′Q¯
Wang
¹
,
Meng
²
,
Zhu
³

2019
Phys. Rev. D
110
14
69
1
View full text Add to dashboard Cite

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Searching for beauty-fully bound tetraquarks using lattice nonrelativistic QCD

Cited by 129 publications

References 71 publications

Heavy-flavored tetraquark states with the QQQ¯Q¯ configuration

Heavy-flavored tetraquark states with the QQQ¯Q¯ configuration

Search for beautiful tetraquarks in the ϒ(1S)μ+μ− invariant-mass spectrum

Spectrum of the fully-heavy tetraquark state QQQ¯′Q¯Wang1, Meng2, Zhu3 2019Phys. Rev. D11014691View full textAdd to dashboardCite

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About

Spectrum of the fully-heavy tetraquark state QQQ¯′Q¯
Wang
¹
,
Meng
²
,
Zhu
³

2019
Phys. Rev. D
110
14
69
1
View full text Add to dashboard Cite