A review on partial-wave dynamics with chiral effective field theory and dispersion relation - INSPIRE

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A review on partial-wave dynamics with chiral effective field theory and dispersion relation

De-Liang Yao
(
- Hunan U.
)
,
Ling-Yun Dai
(
- Hunan U.
)
,
Han-Qing Zheng
(
- Peking U. and
- Peking U., SKLNPT
)
,
Zhi-Yong Zhou
(
- Southeast U., Nanjing
)

Sep 28, 2020

69 pages

Published in:

Rept.Prog.Phys. 84 (2021) 7, 076201

Published: Jun 14, 2021

e-Print:

2009.13495 [hep-ph]

DOI:

10.1088/1361-6633/abfa6f

View in:

ADS Abstract Service

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Abstract: (IOP)

The description of strong interaction physics of low-lying resonances is out of the valid range of perturbative QCD. Chiral effective field theories (EFTs) have been developed to tackle the issue. Partial wave dynamics is the systematic tool to decode the underlying physics and reveal the properties of those resonances. It is extremely powerful and helpful for our understanding of the non-perturbative regime, especially when dispersion techniques are utilized simultaneously. Recently, plenty of exotic/ordinary hadrons have been reported by experiment collaborations, e.g. LHCb, Belle, and BESIII, etc. In this review, we summarize the recent progress on the applications of partial wave dynamics combined with chiral EFTs and dispersion relations, on related topics, with emphasis on ππ, πK, πN and scatterings.

Note:

69 pages, 10 figures, 7 tables, to be the same as the published version

effective field theory: chiral
quantum chromodynamics
partial wave
dispersion relation
strong interaction
nonperturbative
pi pi: scattering
pi nucleon: scattering
pi K: scattering
K nucleon: scattering

References(459)

Figures(16)

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