A new method for obtaining a Born cross section using visible cross section data from e+e− colliders

Gribanov, S.S.; Попов, А. С.

doi:10.1007/jhep11(2021)203

J. High Energ. Phys.

2021

DOI: 10.1007/jhep11(2021)203

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A new method for obtaining a Born cross section using visible cross section data from e+e− colliders

S.S. Gribanov

А. С. Попов

Abstract: In this paper, we propose a new method for obtaining a Born cross section using visible cross section data. It is assumed that the initial state radiation is taken into account in a visible cross section, while in a Born cross section this effect is ommited. Since the equation that connects Born and visible cross sections is an integral equation of the first kind, the problem of finding its numerical solution is ill-posed. Various regularization-based approaches are often used to solve ill-posed problems, sinc… Show more

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Search for Z′→μ+μ− in the
Czank¹,
Jaeglé²,
Ishikawa³
et al. 2022
Phys. Rev. D

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Search for Z′→μ+μ− in the
Czank¹,
Jaeglé²,
Ishikawa³
et al. 2022
Phys. Rev. D

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Analytic forms for the e+e− annihilation cross sections around a resonance including initial state radiation

Liu,

Zhang,

Zhou

2024

Phys. Rev. D

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For the first time, the exact analytic integration of the product between the Kuraev-Fadin radiative function and the Born-level cross section has been achieved for e+e− annihilation near a narrow resonance. The analytic result is in a perfect agreement with the one obtained through direct numerical integration. The extraction of resonance parameters is demonstrated through the unfolding of the initial state radiation effect. The analytic integration significantly accelerates the regression process by more than 160 times compared to numerical integration. Moreover, it facilitates the determination of experimental measurements for physical parameters, such as the two-dimensional confidence region of the branching fraction and the relative phase between the strong and electromagnetic amplitudes, within just one hour instead of one week typically required for numerical integration. Published by the American Physical Society 2024

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A new method for obtaining a Born cross section using visible cross section data from e+e− colliders

Cited by 2 publications

References 22 publications

Search for Z′→μ+μ− in the
Czank¹,
Jaeglé²,
Ishikawa³
et al. 2022
Phys. Rev. D

Search for Z′→μ+μ− in the
Czank¹,
Jaeglé²,
Ishikawa³
et al. 2022
Phys. Rev. D

Analytic forms for the e+e− annihilation cross sections around a resonance including initial state radiation

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A new method for obtaining a Born cross section using visible cross section data from e+e− colliders

Cited by 2 publications

References 22 publications

Search for Z′→μ+μ− in the Czank1, Jaeglé2, Ishikawa3 et al. 2022Phys. Rev. D

Search for Z′→μ+μ− in the Czank1, Jaeglé2, Ishikawa3 et al. 2022Phys. Rev. D

Analytic forms for the e+e− annihilation cross sections around a resonance including initial state radiation

Contact Info

Product

Resources

About

Search for Z′→μ+μ− in the
Czank¹,
Jaeglé²,
Ishikawa³
et al. 2022
Phys. Rev. D

Search for Z′→μ+μ− in the
Czank¹,
Jaeglé²,
Ishikawa³
et al. 2022
Phys. Rev. D