MOND和MOG理论与 的比较研究κ-模型在星系团中的应用

IF 1.1 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY
G. Pascoli
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引用次数: 2

摘要

人们提出了许多模型来最小化宇宙中各个尺度上各种天体中的暗物质(DM)含量。最广为人知的模型是修正牛顿动力学(MOND)。MOND最早由Mordehai Milgrom于1983年发表。第二个并发模型是修正引力模型,它是广义相对论的协变标量-张量-向量扩展。其他理论也存在,但尚未广泛应用于大量天体。最后,我们还可以提到牛顿分数维引力,这是一种基于分数维(即非整数)空间的引力理论。最近在天体物理学领域提出了一种基于非常基本的现象学考虑的新模型,称为κ-模型。这个模型表明,DM的存在在星系动力学方面可以被显著地最小化。κ-模型属于MOND派生的一般理论家族。在这个家族的理论下,没有必要发展一个高度不确定的物理DM部门来解释观测结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A comparative study of MOND and MOG theories versus κ-model: An application to galaxy clusters
Many models have been proposed to minimize the dark matter (DM) content in various astronomical objects at every scale in the Universe. The most widely known model is MOdified Newtonian dynamics (MOND). MOND was first published by Mordehai Milgrom in 1983. A second concurrent model is modified gravity, which is a covariant scalar–tensor–vector extension of general relativity. Other theories also exist but have not been broadly applied to a large list of astronomical objects. Eventually, we can also mention the Newtonian fractional-dimension gravity, a gravity theory based on spaces with fractional (i.e., non-integer) dimension. A new model, called κ-model, based on very elementary phenomenological considerations, has recently been proposed in the astrophysics field. This model shows that the presence of DM can be considerably minimized with regard to the dynamics of galaxies. The κ-model belongs to the general family of theories descended from MOND. Under this family of theories, there is no need to develop a highly uncertain DM sector of physics to explain the observations.
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来源期刊
Canadian Journal of Physics
Canadian Journal of Physics 物理-物理:综合
CiteScore
2.30
自引率
8.30%
发文量
65
审稿时长
1.7 months
期刊介绍: The Canadian Journal of Physics publishes research articles, rapid communications, and review articles that report significant advances in research in physics, including atomic and molecular physics; condensed matter; elementary particles and fields; nuclear physics; gases, fluid dynamics, and plasmas; electromagnetism and optics; mathematical physics; interdisciplinary, classical, and applied physics; relativity and cosmology; physics education research; statistical mechanics and thermodynamics; quantum physics and quantum computing; gravitation and string theory; biophysics; aeronomy and space physics; and astrophysics.
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