GZK Cutoff in Presence of a Specified Modified Dispersion Relation

IF 1.2 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS Gravitation and Cosmology Pub Date : 2023-11-23 DOI:10.1134/S020228932304014X
Arash Majidian, Mehdi Jafari Matehkolaeer
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Abstract

In this study, based on the constraints of modified dispersion relation parameters from Ultra High Energy Cosmic Rays (UHECR), we investigate the wavelength shift of scattered photons in a Compton process. In other words, the main motivation here is to consider the effects of modified dispersion relation and Lorentz invariance violation on inverse Compton scattering of cosmic microwave background (CMB) photons and the GZK cutoff. Our calculations indicate that the change in wavelength depends on the incident photon wavelength. In addition, we obtain a threshold momentum of an electron as \(|P|\leq 10^{12}\) eV. This threshold indicates the reasonable values for \(|P|\). Also, we find that with respect to the specified modified dispersion relation it is possible to extend the GZK cutoff in the UHECR spectrum beyond \(10^{20}\) eV, and we expect to detect cosmic rays from deep space having energies greater than \(10^{20}\) eV, as suggested in some experiments.

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存在特定修正色散关系的GZK截止
本文在超高能宇宙射线(UHECR)修正色散关系参数约束下,研究了康普顿过程中散射光子的波长移。换句话说,这里的主要动机是考虑修正色散关系和洛伦兹不变性破坏对宇宙微波背景(CMB)光子的逆康普顿散射和GZK截止的影响。我们的计算表明,波长的变化取决于入射光子的波长。此外,我们得到了一个电子的阈值动量为\(|P|\leq 10^{12}\) eV。该阈值表示\(|P|\)的合理值。此外,我们发现,对于指定的修正色散关系,可以将UHECR谱中的GZK截止点扩展到\(10^{20}\) eV以上,并且我们期望探测到来自深空的能量大于\(10^{20}\) eV的宇宙射线,正如一些实验所表明的那样。
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来源期刊
Gravitation and Cosmology
Gravitation and Cosmology ASTRONOMY & ASTROPHYSICS-
CiteScore
1.70
自引率
22.20%
发文量
31
审稿时长
>12 weeks
期刊介绍: Gravitation and Cosmology is a peer-reviewed periodical, dealing with the full range of topics of gravitational physics and relativistic cosmology and published under the auspices of the Russian Gravitation Society and Peoples’ Friendship University of Russia. The journal publishes research papers, review articles and brief communications on the following fields: theoretical (classical and quantum) gravitation; relativistic astrophysics and cosmology, exact solutions and modern mathematical methods in gravitation and cosmology, including Lie groups, geometry and topology; unification theories including gravitation; fundamental physical constants and their possible variations; fundamental gravity experiments on Earth and in space; related topics. It also publishes selected old papers which have not lost their topicality but were previously published only in Russian and were not available to the worldwide research community
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