18 research outputs found

    Analysis of the DDΛ‰βˆ—KD\bar{D}^*K system with QCD sum rules

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    In this article, we construct the color singlet-singlet-singlet interpolating current with I(JP)=32(1βˆ’)I\left(J^P\right)=\frac{3}{2}\left(1^-\right) to study the DDΛ‰βˆ—KD\bar{D}^*K system through QCD sum rules approach. In calculations, we consider the contributions of the vacuum condensates up to dimension-16 and employ the formula ΞΌ=MX/Y/Z2βˆ’(2Mc)2\mu=\sqrt{M_{X/Y/Z}^{2}-\left(2{\mathbb{M}}_{c}\right)^{2}} to choose the optimal energy scale of the QCD spectral density. The numerical result MZ=4.71βˆ’0.11+0.19 GeVM_Z=4.71_{-0.11}^{+0.19}\,\rm{GeV} indicates that there exists a resonance state ZZ lying above the DDΛ‰βˆ—KD\bar{D}^*K threshold to saturate the QCD sum rules. This resonance state ZZ may be found by focusing on the channel J/ΟˆΟ€KJ/\psi \pi K of the decay B⟢J/ΟˆΟ€Ο€KB\longrightarrow J/\psi \pi \pi K in the future.Comment: 9 pages, 4 figure

    Masses and decay constants of the heavy tensor mesons with QCD sum rules

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    In this article, we calculate the contributions of the vacuum condensates up to dimension-6 in the operator product expansion, study the masses and decay constants of the heavy tensor mesons D2βˆ—(2460)D_2^*(2460), Ds2βˆ—(2573)D_{s2}^*(2573), B2βˆ—(5747)B_2^*(5747), Bs2βˆ—(5840)B_{s2}^*(5840) using the QCD sum rules. The predicted masses are in excellent agreement with the experimental data, while the ratios of the decay constants fDs2βˆ—fD2βˆ—β‰ˆfBs2βˆ—fB2βˆ—β‰ˆfDsfD∣exp\frac{f_{D_{s2}^*}}{f_{D_{2}^*}}\approx\frac{f_{B_{s2}^*}}{f_{B_{2}^*}}\approx\frac{f_{D_{s}}}{f_{D}}\mid_{\rm exp}, where the exp denotes the experimental value.Comment: 13 pages, 13 figure

    Analysis of the mass and width of the X(4140)X(4140) as axialvector tetraquark state

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    In this article, we construct both the [sc]T[sΛ‰cΛ‰]A+[sc]A[sΛ‰cΛ‰]T[sc]_T[\bar{s}\bar{c}]_A+[sc]_A[\bar{s}\bar{c}]_T type and [sc]T[sΛ‰cΛ‰]Vβˆ’[sc]V[sΛ‰cΛ‰]T[sc]_T[\bar{s}\bar{c}]_V-[sc]_V[\bar{s}\bar{c}]_T type axialvector currents with JPC=1++J^{PC}=1^{++} to study the mass of the X(4140)X(4140) with the QCD sum rules. The predicted masses support assigning the X(4140)X(4140) to be the [sc]T[sΛ‰cΛ‰]Vβˆ’[sc]V[sΛ‰cΛ‰]T[sc]_T[\bar{s}\bar{c}]_V-[sc]_V[\bar{s}\bar{c}]_T type axialvector tetraquark state. Then we study the hadronic coupling constant gXJ/ΟˆΟ•g_{XJ/\psi\phi} with the QCD sum rules based on solid quark-hadron duality, and obtain the decay width Ξ“(X(4140)β†’J/ΟˆΟ•)=86.9Β±22.6 MeV\Gamma(X(4140)\to J/\psi \phi)=86.9\pm22.6\,{\rm{MeV}}, which is in excellent agreement with the experimental data 83\pm 21^{+21}_{-14} {\mbox{ MeV}} from the LHCb collaboration.Comment: 17 pages, 5 figure

    Analysis of the D

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