Spin-1 diquark contributing to the formation of tetraquarks in light mesons
- Authors
- Kim, Hungchong; Cheoun, Myung-Ki; Kim, K. S.
- Issue Date
- 20-Mar-2017
- Publisher
- SPRINGER
- Citation
- EUROPEAN PHYSICAL JOURNAL C, v.77, no.3
- Journal Title
- EUROPEAN PHYSICAL JOURNAL C
- Volume
- 77
- Number
- 3
- URI
- http://scholarworks.bwise.kr/ssu/handle/2018.sw.ssu/6426
- DOI
- 10.1140/epjc/s10052-017-4736-6
- ISSN
- 1434-6044
- Abstract
- We apply a mixing framework to the light meson systems and examine tetraquark possibility in the scalar channel. In the diquark-antidiquark model, a scalar diquark is a compact object when its color and flavor structures are in ((3) over bar (c), (3) over bar (f)). Assuming that all the quarks are in an S-wave, the spin-0 tetraquark formed out of this scalar diquark has only one spin configuration, vertical bar J, J(12), J(34) > = vertical bar 000 >, where J is the spin of the tetraquark, J(12) the diquark spin, J(34) the antidiquark spin. In this construction of the scalar tetraquark, we notice that another compact diquark with spin-1 in (6(c), (3) over bar (f)) can be used although it is less compact than the scalar diquark. The spin-0 tetraquark constructed from this vector diquark leads to the spin configuration vertical bar J, J(12), J(34) > = vertical bar 011 >. The two configurations, vertical bar 000 and vertical bar 011 >, are found to mix strongly through the color-spin interaction. The physical states can be identified with certain mixtures of the two configurations which diagonalize the hyperfine masses of the color-spin interaction. Matching these states to two scalar resonances a(0)(980), a(0)(1450) or to K-0*(800), K-0*(1430) depending on the isospin channel, we find that their mass splittings are qualitatively consistent with the hyperfine mass splittings which can support their tetraquark structure. To test our mixing scheme further, we also construct the tetraquarks for J=1, J=2 with the spin configurations, vertical bar 111 > and vertical bar 211 >, and discuss possible candidates in the physical spectrum.
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