Low-energy elastic (anti)neutrino–nucleon scattering in covariant baryon chiral perturbation theory

IF 6.5 2区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY Frontiers of Physics Pub Date : 2024-06-20 DOI:10.1007/s11467-024-1417-4

Jin-Man Chen, Ze-Rui Liang, De-Liang Yao

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Abstract

The low-energy antineutrino- and neutrino–nucleon neutral current elastic scattering is studied within the framework of the relativistic SU(2) baryon chiral perturbation theory up to the order of \({\cal O}({p^{3}})\). We have derived the model-independent hadronic amplitudes and extracted the form factors from them. It is found that differential cross sections dσ/dQ² for the processes of (anti)neutrino–proton scattering are in good agreement with the existing MiniBooNE data in the Q² region [0.13, 0.20] GeV², where nuclear effects are expected to be negligible. For Q² ≤ 0.13 GeV², large deviation is observed, which is mainly owing to the sizeable Pauli blocking effect. Comparisons with the simulation data produced by the NuWro and GENIE Mento Carlo events generators are also discussed. The chiral results obtained in this work can be utilized as inputs in various nuclear models to achieve the goal of precise determination of the strangeness axial vector form factor, in particular when the low-energy MicroBooNE data are available in the near future.

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协变重子手性扰动理论中的低能弹性（反）中微子-核子散射

我们在相对论性SU(2)重子手性扰动理论的框架内研究了低能反中子和中子-核子中性电流弹性散射，直到\({\cal O}({p^{3}})\)阶。我们导出了与模型无关的强子振幅，并从中提取了形式因子。我们发现，（反）中微子-质子散射过程的微分截面 dσ/dQ2 与 Q2 区域 [0.13, 0.20] GeV2 的现有 MiniBooNE 数据非常吻合，在该区域，核效应预计可以忽略不计。在 Q2 ≤ 0.13 GeV2 时，观察到了较大的偏差，这主要是由于相当大的保利阻挡效应造成的。此外，还讨论了与 NuWro 和 GENIE 门托卡罗事件发生器产生的模拟数据的比较。这项工作中获得的手性结果可以作为各种核模型的输入，以实现精确测定陌生化轴向矢量形式因子的目标，特别是在不久的将来获得低能微布恩数据时。

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来源期刊

Frontiers of Physics PHYSICS, MULTIDISCIPLINARY-

CiteScore

9.20

自引率

9.30%

发文量

898

审稿时长

6-12 weeks

期刊介绍： Frontiers of Physics is an international peer-reviewed journal dedicated to showcasing the latest advancements and significant progress in various research areas within the field of physics. The journal's scope is broad, covering a range of topics that include: Quantum computation and quantum information Atomic, molecular, and optical physics Condensed matter physics, material sciences, and interdisciplinary research Particle, nuclear physics, astrophysics, and cosmology The journal's mission is to highlight frontier achievements, hot topics, and cross-disciplinary points in physics, facilitating communication and idea exchange among physicists both in China and internationally. It serves as a platform for researchers to share their findings and insights, fostering collaboration and innovation across different areas of physics.