Ø 第一作者或通信作者论文(*标记为通信作者,#为共同一作): 1. Tao Zhong*, Dong Huang and Hai-Bing Fu, Revisiting the D-meson twist-2, 3 distribution amplitudes, Chin. Phys. C 47 (2023) no.5, 053014, arXiv:2212.04641;发表时间:2023.03.07;刊物名称:Chinese Physics C 2. Tao Zhong*, Zhi-Hao Zhu and Hai-Bing Fu, Constraints of ξ-moments computed using QCD sum rules on piondistribution amplitude models, Chin. Phys. C 47 (2023) no.1, 013111;发表时间:2022.10.27;刊物名称:Chinese Physics C 3. Tao Zhong*, Hai-Bing Fu and Xing-Gang Wu, Investigating the ratio of CKM matrix elements |Vub/Vcb| from semileptonic decay Bs0→K-μ+νμ and kaon twist-2 distribution amplitude, Phys. Rev. D 105 (2022) no.11, 116020;发表时间:2022.06.23;刊物名称:Physical Review D 4. Tao Zhong*, Zhi-Hao Zhu, Hai-Bing Fu, Xing-Gang Wu, Tao Huang,Improved light-cone harmonic oscillator model for the pionic leading-twist distribution amplitude,Phys. Rev. D 104, no.1, 016021 (2021);发表时间:2021.07.22;刊物名称:Physical Review D 5. Tao Zhong*, Ke Li, Yi Zhang, Hai-Bing Fu, D Meson Leading-Twist Distribution Amplitude from B→Dlvl Semi-Leptonic Decay, Int. J. Theor. Phys. 59, no.8, 2562-2571 (2020);发表时间:2020.07.04;刊物名称:International Journal of Theoretical Physics 6. Tao Zhong*, Yi Zhang, Xing-Gang Wu, Hai-Bing Fu, Tao Huang,The ratio R(D) and the D-meson distribution amplitude,Eur. Phys. J. C78 (2018) 937,SCI一区;发表时间:2018.11.14;期刊名称:European Physical Journal C 7. Tao Zhong*, Xing-Gang Wu, Tao Huang, Hai-Bing Fu,Heavy Pseudoscalar Twist-3 Distribution Amplitudes within QCD Theory in Background Fields,Eur. Phys. J. C76 (2016) 509,SCI一区;发表时间:2016.09.17;期刊名称:European Physical Journal C 8. Tao Zhong*, Xing-Gang Wu, Tao Huang,The longitudinal and transverse distributions of the pion wave function from the present experimental data on the pion–photon transition form factor,Eur. Phys. J. C76 (2016) 390,SCI一区;发表时间:2016.07.12;期刊名称:European Physical Journal C 9. Tao Zhong*, Xing-Gang Wu, Tao Huang,Heavy Pseudoscalar Leading-Twist Distribution Amplitudes within QCD Theory in Background Fields,Eur. Phys. J. C75 (2015) 45,SCI一区;发表时间:2015.02.03;期刊名称:European Physical Journal C 10. Tao Zhong*, Xing-Gang Wu, Zhi-Gang Wang, Tao Huang, Hai-Bing Fu, Hua-Yong Han,Revisiting the Pion Leading-Twist Distribution Amplitude within the QCD Background Field Theory,Phys. Rev. D90 (2014) 016004,SCI一区;发表时间:2014.07.09;刊物名称:Physical Review D 11. Tao Zhong*, Xing-Gang Wu, Jia-Wei Zhang, Yun-Qing Tang, Zhen-Yun Fang,New results on Pionic Twist-3 Distribution Amplitudes within the QCD Sum Rules,Phys. Rev. D83 (2011) 036002,SCI一区;发表时间:2011.02.07;刊物名称:Physical Review D 12. Tao Zhong*, Xing-Gang Wu, Hua-Yong Han, Qi-Li Liao, Hai-Bing Fu, Zhen-Yun Fang,Revisiting the Twist-3 Distribution Amplitudes of K Meson within the QCD Background Field Approach, Commun. Theor. Phys. 58 (2012) 261-270,SCI四区;发表时间:2012.04.16;刊物名称:Communications in Theoretical Physics 13. Dong Huang, Tao Zhong*, Hai-Bing Fu, Zai-Hui Wu, Xing-Gang Wu and Hong Tong, K0*(1430) Twist-2 Distribution Amplitude and Bs,Ds→K0*(1430) Transition Form Factors, Eur. Phys. J. C83 (2023) 680;发表时间:2023.07.30;刊物名称:The European Physical Journal C 14. Yi Zhang, Tao Zhong*, Hai-Bing Fu, Wei Cheng, Long Zeng and Xing-Gang Wu, The ratio R(Ds) for Bs→Dslvl by using the QCD light-cone sum rules within the framework of heavy quark effective field theory, Phys. Rev. D 105 (2022) no.9, 096013;发表时间:2022.05.16;刊物名称:Physical Review D 15. Tao Huang, Tao Zhong*, Xing-Gang Wu,Determination of the pion distribution amplitude,Phys. Rev. D88 (2013) 034013,SCI一区;发表时间:2013.08.08;刊物名称:Physical Review D 16. Yi Zhang, Tao Zhong*, Xing-Gang Wu, Ke Li, Hai-Bing Fu, Tao Huang,Uncertainties of the B→D transition form factor from the D-meson leading-twist distribution amplitude,Eur. Phys. J. C78 (2018) 76,SCI一区;发表时间:2018.01.25;期刊名称:European Physical Journal C Ø 合作者论文: 1. Dan-Dan Hu, Xing-Gang Wu, Hai-Bing Fu, Tao Zhong, Zai-Hui Wu and Long Zeng, Properties of the ηq leading-twist distribution amplitude and its effects to the B/D+→η(')l+νl decays, Eur. Phys. J. C 84 (2024) no.1, 15;发表时间:2024.01.08;期刊名称:European Physical Journal C, [arXiv:2307.04640 [hep-ph]]. 2. Hai-Jiang Tian, Hai-Bing Fu, Tao Zhong, Xuan Luo, Dan-Dan Hu and Yin-Long Yang, Investigating Ds+→π0l+νl decay process within QCD sum rule approach, Phys. Rev. D 108 (2023), no.7, 076003;发表时间:2023.10.11;期刊名称:Physical Review D. [arXiv:2306.07595 [hep-ph]] 3. Zai-Hui Wu, Hai-Bing Fu, Tao Zhong, Yu Chen and Ya-Hong Dai, Searching for a0(980)-meson parton distribution function, Commun. Theor. Phys. 75 (2023) no.8, 085201,发表时间:2023.08.01;期刊名称:Communications in Theoretical Physics. arXiv:2212.03561 4. Zai-Hui Wu, Hai-Bing Fu, Tao Zhong, Dong Huang, Dan-Dan Hu and Xing-Gang Wu, a0(980)-meson twist-2 distribution amplitude within the QCD sum rules and investigation of D→a0(980)(→ηπ)e+ve, Nucl. Phys. A 1036 (2023) 122671;发表时间:2023.05.05;期刊名称:Nuclear Physics A 5. Dan-Dan Hu, Hai-Bing Fu, Tao Zhong, Zai-Hui Wu and Xing-Gang Wu, Investigating a1(1260)-meson longitudinal twist-2 distribution amplitude and D→a1(1260)l+vl processes within QCD sum rules, Eur. Phys. J. C 82 (2022) no.7, 603;发表时间:2022.07.09;期刊名称:European Physical Journal C 6. Yi Zhang, Tao Zhong, Hai-Bing Fu, Wei Cheng and Xing-Gang Wu, Ds-meson leading-twist distribution amplitude within the QCD sum rules and its application to the Bs→Ds transition form factor, Phys. Rev. D 103, no.11, 114024 (2021);发表时间:2021.06.25;刊物名称:Physical Review D 7. Dan-Dan Hu, Hai-Bing Fu, Tao Zhong, Long Zeng, Wei Cheng, Xing-Gang Wu,η-meson leading-twist distribution amplitude within QCD sum rule approach and its application to the semi-leptonic decay Ds+→ηl+vl,Eur. Phys. J. C 82, no.1, 12 (2022);发表时间:2022.01.07;期刊名称:European Physical Journal C 8. Hai-Bing Fu, Wei Cheng, Long Zeng, Dan-Dan Hu and Tao Zhong, Branching fractions and polarizations of D→Vlvl within QCD light-cone sum rule, Phys. Rev. Res. 2, no.4, 043129 (2020);发表时间:2020.10.23;刊物名称:Physical Review Research 9. Xing-Gang Wu, Tao Huang, Tao Zhong,Information on the Pion Distribution Amplitude from the Pion-Photon Transition Form Factor with the Belle and BaBar Data,Chin. Phys. C37 (2013) 063105,SCI二区;发表时间:2013.01.30;刊物名称:Chinese Physics C 10. Tao Huang, Xing-Gang Wu, Tao Zhong,Finding a way to determine the pion distribution amplitude from the experimental data,Chin. Phys. Lett. 30 (2013) 041201,SCI四区;发表时间:2013.03.11;刊物名称:Chinese Physics Letters 11. Jia-Wei Zhang, Xing-Gang Wu, Tao Zhong, Yao Yu, Zhen-Yun Fang,Hadronic Production of the Doubly Heavy Baryon Ξbc at LHC,Phys. Rev. D83 (2011) 034026,SCI一区;发表时间:2011.02.23;刊物名称:Physical Review D 12. Hai-Bing Fu, Long Zeng, Wei Cheng, Xing-Gang Wu, Tao Zhong,The longitudinal leading-twist distribution amplitude of J/ψ meson within background field theory, Phys. Rev. D97 (2018) 074025,SCI一区;发表时间:2018.04.24;刊物名称:Physical Review D 13. Hai-Bing Fu, Xing-Gang Wu, Wei Cheng, Tao Zhong, Zhan Sun,Asymmetries of the B→K∗μ+μ− decay and the search of new physics beyond the standard model,Phys. Rev. D97 (2018) 055037,SCI一区;发表时间:2018.03.26;刊物名称:Physical Review D 14. Hai-Bing Fu, Xing-Gang Wu, Wei Cheng, Tao Zhong,ρ -meson longitudinal leading-twist distribution amplitude within QCD background field theory,Phys. Rev. D94 (2016) 074004,SCI一区;发表时间:2016.10.03;刊物名称:Physical Review D 15. Hai-Bing Fu, Xing-Gang Wu, Hua-Yong Han, Yang Ma, Tao Zhong,|Vcb| from the semileptonic decay B→Dℓν¯ and the properties of the D meson distribution amplitude,Nucl. Phys. B884 (2014) 172-192,SCI二区;发表时间:2014.04.30;期刊名称:Nuclear Physics B 16. Hua-Yong Han, Xing-Gang Wu, Hai-Bing Fu, Qiong-Lian Zhang, Tao Zhong,Twist-3 Distribution Amplitudes of Scalar Mesons within the QCD Sum Rules and Its Application to the B→S Transition Form Factors,Eur. Phys. J. A49 (2013) 78,SCI二区;发表时间:2013.06.26;期刊名称:European Physical Journal A 17. Jia-Wei Zhang, Zhen-Yun Fang, Chao-Hsi Chang, Xing-Gang Wu, Tao Zhong, Yao Yu,Hadronic production of B(*)(s) at TEVATRON and LHC,Phys. Rev. D79 (2009) 114012,SCI一区;发表时间:2009.06.12;刊物名称:Physical Review D 18. Jin Li, Yuan-Hong Zhong, Tao Zhong,Relic gravity waves investigation by advanced space-based gravitational waves detector,Commun. Theor. Phys. 53 (2010) 496-498,SCI四区;发表时间:2010.03.15;刊物名称:Communications in Theoretical Physics |
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