Structure of the Roper resonance from lattice QCD constraints

Jia-jun Wu; Derek B. Leinweber; Zhan-wei Liu; Anthony W. Thomas

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Structure of the Roper resonance from lattice QCD constraints

机译：晶格QCD约束的绳索共振结构

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Two different effective field theory descriptions of the pion-nucleon scattering data are constructed to describe the region of the Roper resonance. In one, the resonance is the result of strong rescattering between coupled meson-baryon channels, while in the other the resonance has a large bare-baryon (or quark-modellike) component. The predictions of these two scenarios are compared with the latest lattice QCD simulation results in this channel. We find that the second scenario is not consistent with lattice QCD results, whereas the first agrees with those constraints. In that preferred scenario, the mass of the quarkmodel-like state is approximately 2 GeV, with the infinite-volume Roper resonance best described as a resonance generated dynamically through strongly coupled meson-baryon channels.

机译：构造了两种不同的有效场理论描述，以描述绳索共振的区域。在一个中，谐振是耦合的Meson-Baryon通道之间强大的改变的结果，而在另一个中，共振具有大的裸晶（或夸克式型）组分。将这两个方案的预测与该通道的最新格子QCD仿真结果进行了比较。我们发现第二个方案与格子QCD结果不一致，而第一次与这些约束一致。在该优选场景中，夸克状状态的质量约为2 GEV，其最佳地描述为通过强耦合的Meson-Baryon通道动态产生的谐振。

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来源
《Physical review, D》 |2018年第1期|共8页
作者
Jia-jun Wu; Derek B. Leinweber; Zhan-wei Liu; Anthony W. Thomas;
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作者单位

Special Research Centre for the Subatomic Structure of Matter (CSSM) Department of Physics University of Adelaide Adelaide South Australia 5005 Australia;

Special Research Centre for the Subatomic Structure of Matter (CSSM) Department of Physics University of Adelaide Adelaide South Australia 5005 Australia;

Special Research Centre for the Subatomic Structure of Matter (CSSM) Department of Physics University of Adelaide Adelaide South Australia 5005 Australia;

Special Research Centre for the Subatomic Structure of Matter (CSSM) Department of Physics University of Adelaide Adelaide South Australia 5005 Australia;

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原文格式 PDF
正文语种 eng
中图分类粒子物理学;场论;
关键词
Structure; Roper; resonance;

机译：结构;绳索;共鸣;

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专利

1. Structure of the Roper resonance from lattice QCD constraints [J] . Jia-jun Wu, Derek B. Leinweber, Zhan-wei Liu, Physical review, D . 2018,第9aPta1期

机译：晶格QCD约束的绳索共振结构
2. Extracting excited states from lattice QCD: the Roper resonance [J] . Guadagnoli D, Papinutto M, Simula S Nuclear Physics, A: Journal Devoted to the Experimental Study of the Fundamental Constituents of Matter and Their Actions . 2005,第0期

机译：从晶格QCD中提取激发态：Roper共振
3. Roper resonance and S-11 (1535) from lattice QCD [J] . Mathur N, Chen Y, Dong SJ, Physics Letters, B. Nuclear Physics and High Energy Physics . 2005,第1a2期

机译：Roper共振和来自晶格QCD的S-11（1535）
4. Hadronic Resonances from Lattice QCD [C] . Adam C. Lichtl, John Bulava, Robert Edwards, Latin American Symposium on Nuclear Physics and Applications . 2007

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5. Flavor Physics with Heavy Baryons and Resonances Using Lattice QCD [D] . ?Rendon Suzuki, Jesus Gumaro 2019

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6. Nuclear Magnetic Resonance-Assisted Prediction ofSecondary Structure for RNA: Incorporation of Direction-DependentChemical Shift Constraints [O] . JonathanL. Chen, Stanislav Bellaousov, Jason D. Tubbs, -1

机译：核磁共振辅助预测RNA的二级结构：方向依赖的纳入。化学位移约束
7. Structure of the Roper Resonance from Lattice QCD Constraints [O] . Wu, Jia-jun, Leinweber, Derek B., Liu, Zhan-wei, 2017

机译：格子QCD约束下Roper共振的结构

Structure of the Roper resonance from lattice QCD constraints

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