Heavy multiquark systems as clusters of smaller units: A diffusion Monte Carlo calculation

Gordillo, M. C.; Segovia, J.

doi:10.1103/physrevd.109.094032

Phys. Rev. D

2024

DOI: 10.1103/physrevd.109.094032

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Heavy multiquark systems as clusters of smaller units: A diffusion Monte Carlo calculation

M. C. Gordillo,

J. Segovia

Abstract: Multiquark systems appear less frequently than mesons and baryons despite the enormous worldwide experimental effort that has been made during the last two decades. In this work, we propose a possible explanation for that fact, restricting ourselves to the case of sets including only c and c¯ quarks. We show that those multiquarks can be thought as different combinations of smaller units that associate together to produce colorless assemblies with a definite value of the total spin. For instance, for the ccccc… Show more

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Dynamical study of DDK and DDD¯
Tan,
Liu,
Chen
et al. 2024
Phys. Rev. D
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Inspired by the recent report from the LHCb Collaboration on Tcc, which can be interpreted as a molecular DD*, we investigated two trimeson systems of the Tcc partner with IJP=01− in the framework of a chiral quark model. In the first case, because of the attraction between D* and D¯, we explored the existence of bound states in the system D*DD¯, which is obtained by adding D¯ into the molecular bound state Tcc (DD*). Similarly, in the second case, we explored whether there is a bound state in the D*DK system, which is obtained by adding K into the Tcc, given the attraction between D and K. The results show that both of them are bound states, in which the binding energy of the molecular state DD*K is relatively small, only 0.4±0.4 MeV, while the binding energy of DD*D¯ is up to 1.6±0.3 MeV. According to the calculation results of the root-square-mean distances, the spatial structure of the two systems shows the obvious (DD*)−(D¯/K) structure, in which D is close to D* while DD* as a whole is relatively distant from the third hadron (D¯/K), which are similar to the nucleon-electron structure. As a result, we strongly recommend that these bound states DD*D¯ and DD*K are searched for experimentally. Published by the American Physical Society 2024

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Dynamical study of DDK and DDD¯
Tan,
Liu,
Chen
et al. 2024
Phys. Rev. D
3
0
0
0
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Diffusion Monte Carlo calculation of fully heavy pentaquarks

Gordillo,

Segovia,

Alcaraz-Pelegrina

2024

Phys. Rev. D

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Using a diffusion Monte Carlo algorithm, we calculated the spectra of all possible S-wave fully heavy pentaquarks within the framework of the quark model. Our aim was to compare the masses of different spin-color configurations corresponding to the same spatial wave function for each quark composition. In particular, we computed the masses of the configuration with the maximum number of undistinguishable quarks and those of all the possible baryon+meson splittings compatible with the total number of b’s and c’s for a given pentaquark. What we found was that, in all cases, compact baryon+meson configurations had lower masses than their more symmetric counterparts. Moreover, those “molecular” associations were unstable (with larger masses) that their infinitely separated noninteracting pieces except in the case of (ccb)(cb¯) and (bbc)(bc¯) pentaquarks. In any case, even for unstable arrangements, the excess masses are so small (∼20–60 MeV) as to make those compact molecular structures serious candidates to be experimentally detected. Published by the American Physical Society 2024

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Heavy multiquark systems as clusters of smaller units: A diffusion Monte Carlo calculation

Cited by 2 publications

References 52 publications

Dynamical study of DDK and DDD¯
Tan,
Liu,
Chen
et al. 2024
Phys. Rev. D
3
0
0
0
View full text Add to dashboard Cite

Dynamical study of DDK and DDD¯
Tan,
Liu,
Chen
et al. 2024
Phys. Rev. D
3
0
0
0
View full text Add to dashboard Cite

Diffusion Monte Carlo calculation of fully heavy pentaquarks

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Heavy multiquark systems as clusters of smaller units: A diffusion Monte Carlo calculation

Cited by 2 publications

References 52 publications

Dynamical study of D*DK and D*DD¯Tan, Liu, Chen et al. 2024Phys. Rev. D3000View full textAdd to dashboardCite

Dynamical study of D*DK and D*DD¯Tan, Liu, Chen et al. 2024Phys. Rev. D3000View full textAdd to dashboardCite

Diffusion Monte Carlo calculation of fully heavy pentaquarks

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Dynamical study of DDK and DDD¯
Tan,
Liu,
Chen
et al. 2024
Phys. Rev. D
3
0
0
0
View full text Add to dashboard Cite

Dynamical study of DDK and DDD¯
Tan,
Liu,
Chen
et al. 2024
Phys. Rev. D
3
0
0
0
View full text Add to dashboard Cite