期刊: FEW-BODY SYSTEMS, 2021; 62 (3)
We employ the shell model with the chiral two- and three-nucleon forces. The effective Hamiltonian relevant to the valence-model space is computed mic......
期刊: FEW-BODY SYSTEMS, 2021; 62 (4)
For more than 50 years after the birth of the nuclear shell model, nuclear physics seemed to be spared the trouble of confronting the fundamental issu......
期刊: FEW-BODY SYSTEMS, 2021; 62 (4)
We present four-body calculations of double-heavy tetraquarks in quark model. Several bound states are found for various flavor combinations. One of t......
期刊: FEW-BODY SYSTEMS, 2021; 62 (4)
The masses of low-lying S-wave mesons are evaluated in a constituent quark model where the Cornell-like potential and one-gluon exchange spin-spin int......
期刊: FEW-BODY SYSTEMS, 2021; 62 (4)
In recent years, more and more exotic hadronic states have been discovered successively. Many of them can be explained as hadronic molecules, such as ......
期刊: FEW-BODY SYSTEMS, 2021; 62 (3)
The magnetic field (10(6) - 10(9)G) effect and the plasma shielding effect on the spectrum of hydrogen helium, and carbon in dense magnetized plasmas ......
期刊: FEW-BODY SYSTEMS, 2021; 62 (3)
In thiswork, the relativistic particle with the action of the generalized exponential potential is studied in the Dirac equation in the context of min......
期刊: FEW-BODY SYSTEMS, 2021; 62 (3)
Many candidates of the so-called exotic hadrons have been observed experimentally and most of them are located close to the threshold of a pair of had......
期刊: FEW-BODY SYSTEMS, 2021; 62 (3)
Triangle mechanisms for B-0 -> (J/psi pi(+)pi(-)) K+pi(-) are studied. Experimentally, an X(3872) peak has been observed in this process. When the ......
期刊: FEW-BODY SYSTEMS, 2021; 62 (3)
We study the momentum correlation functions of p Xi(-) and Lambda Lambda pairs produced in high-energy nuclear collisions by using the coupled-channel......
期刊: FEW-BODY SYSTEMS, 2021; 62 (3)
We derive an assumption-free mass relation that connects heavy-quark mesons (c (c) over bar, b (b) over bar band B-c mesons) with different quantum nu......
期刊: FEW-BODY SYSTEMS, 2021; 62 (3)
Starting from 2003, a large number of the so-called exotic hadrons, such as X(3872) and D-s0*(2317), were discovered experimentally. Since then, under......
期刊: FEW-BODY SYSTEMS, 2021; 62 (4)
To identify the 3 alpha BEC state with the excess neutron, we have investigated themonopole strength of the excited states of C-13 by using the theore......
期刊: FEW-BODY SYSTEMS, 2021; 62 (1)
We studied a class of exponential potential model V(x) = -a e(-b x) (a > 0, b > 0) and found that its solutions are given by the Bessel function......
