Analysis Of the Different Analytical Model for Different Dark Matter Candidate
DOI:
https://doi.org/10.54097/7gjc8b19Keywords:
Dark matter; WIMPs; axion.Abstract
As a matter of fact, dark matter candidate searching always been a key puzzle and challenge for contemporary physics. In retrospect, various approaches have been proposed in order to realize the detections and plenty of analytical models are given for possible searching. Nevertheless, there is no strong evidence for existence of certain type dark matter. With this in mind, this study will demonstrate the history and various different proposed models for dark matter candidate. To be specific, the WIMPs and axion, two most widely investigated candidate, will be discussed in detail. According to the analysis, the basic concepts, analytical descriptions, detection facilities as well as the state-of-art results will be illustrated. In the meantime, the current limitations for detections as well as searching for further research will be evaluated. Overall, these results shed light on guiding further exploration of dark matter as well as pave a path for dark matter candidate searching to confirm the physical model based on the upgrade of the advanced facilities.
Downloads
References
Bertone G, Hooper D. History of dark matter. Reviews of Modern Physics, 2018, 90(4): 045002.
Liu Z. Dark matter halos in N-body simulations of the interacting dark energy cosmology model: formation history, density profile, spin, and shape. Yunnan University, 2022.
Sun J, Hu J. Analysis of scientific frontier problems based on the perspective of middle school physics: Taking "dark matter in galaxies" as an example. Physics Teacher 2024, 1: 68-70.
Yin S. The formation and development of the concept of ether. National Society for Modern Physics. Proceedings of the 16th National Symposium on Atomic and Nuclear Physics and the 9th Annual Meeting of the National Society for Modern Physics, 2006:4.
Liu Z. Research on new physical phenomenology related to neutrinos and dark matter. Central China Normal University, 2023.
Feng X, Dou H, Gao C. The Principle of symmetry beyond the Standard Model and its methodological implications. Communications in Dialectics of Nature, 2021, 43(08): 44-51.
Baer H, Choi K Y, Kim J E, et al. Dark matter production in the early Universe: beyond the thermal WIMP paradigm. Physics Reports, 2015, 555: 1-60.
Graham P W, Rajendran S. New observables for direct detection of axion dark matter. Physical Review D, 2013, 88(3): 035023.
Arza A, Sikivie P. Production and detection of an axion dark matter echo. Physical Review Letters, 2019, 123(13): 131804.
Huyan J. In the journal Science, the hunt for WIMP dark matter is a worry. Physics and Engineering, 2016, 26(04): 118-119.
Bin B. New research finds unstable dark matter in the universe. Science Grand View Garden, 2017, 5: 36-37.
Downloads
Published
Issue
Section
License
Copyright (c) 2024 Highlights in Science, Engineering and Technology

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.







