Analysis Of the Dark Matter Searching for Axions, Wimps and Mini-Blackholes
DOI:
https://doi.org/10.54097/d7174a11Keywords:
Dark matter; axions; WIMPs; mini-blackholes.Abstract
With the development of science and technology, human beings are no longer satisfied with exploring visible objects. Under the help of gravity, scholars have noticed dark matter and dark energy. Unfortunately, dark matter is ethereal and has not been discovered by human beings for the time being, but through various experiments, astronomers have narrowed the scope of dark matter and defined some matter to guess the nature of dark matter. These are known as candidates for dark matter. This study makes a theoretical analysis of the three dark matter candidates, Axions, WIMPs and mini black holes, and lists various experimental evidences and principles, so as to give readers a clearer understanding of these three types of candidates and their high possibility of existence. These three are currently the hottest candidates and the most important objects for analyzing dark matter. At the same time, in a deeper analysis, their possible existence also indicates that the possibility of the existence of dark biological intelligence is extremely small, and that none of these three substances can rely on conventional physicochemical changes to form complex and cohesive enough matter, let alone to form a normal size organism. Therefore, these results help to understand the status quo and prospect of dark matter research, and provide sufficient theoretical evidence for the discovery of dark matter.
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References
Benson A J. Galaxy formation theory. Physics Reports, 2010, 495(2-3): 33-86.
Puccetti S, Fiore F, Bongiorno A, et al. Triggering nuclear and galaxy activity in the Bullet cluster. Astronomy & Astrophysics, 2020, 634: A137.
Nie J Y, Li D Q, Cao Z J, et al. Probabilistic characterization and simulation of realistic particle shape based on sphere harmonic representation and Nataf transformation. Powder Technology, 2020, 360: 209-220.
Baxter D, Bloch I M, Bodnia E, et al. Recommended conventions for reporting results from direct dark matter searches. The European Physical Journal C, 2021, 81: 1-19.
Zu L, Yuan G W, Feng L, et al. Mirror dark matter and electronic recoil events in XENON1T. Nuclear Physics B, 2021, 965: 115369.
Dougherty J. Large gauge transformations and the strong CP problem. Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics, 2020, 69: 50-66.
Allali I, Hertzberg M P. Gravitational decoherence of dark matter. Journal of Cosmology and Astroparticle Physics, 2020, 2020(07): 056.
Battye R A, Garbrecht B, McDonald J, et al. Radio line properties of axion dark matter conversion in neutron stars. Journal of High Energy Physics, 2021, 2021(9): 1-29.
Semertzidis Y K, Youn S W. Axion dark matter: How to see it?. Science Advances, 2022, 8(8): eabm9928.
Braine T, Cervantes R, Crisosto N, et al. Extended search for the invisible axion with the axion dark matter experiment. Physical review letters, 2020, 124(10): 101303.
Batković I, De Angelis A, Doro M, et al. Axion-like Particle Searches with IACTs. Universe, 2021, 7(6): 185.
Cao J, Meng L, Yue Y, et al. Suppressing the scattering of WIMP dark matter and nucleons in supersymmetric theories. Physical Review D, 2020, 101(7): 075003.
Viana A, Albert A, Harding J P, et al. Searching for dark matter with the southern wide-field gamma-ray observatory (SWGO). POS PROCEEDINGS OF SCIENCE, 2022, 395: 1-10.
Abelson S S. Variety of evidence in multimessenger astronomy. Studies in History and Philosophy of Science, 2022, 94: 133-142.
Oncins Fernández M. Observational consequences of Black Holes in the Universe: From dark matter candidates to quasars. 2022.
Bhamare D R, Chopade J V. Advanced LASER Interferometer Gravitational-Wave Observatory. IUP Journal of Mechanical Engineering, 2021, 14(4): 53-67.
De Paolis F. Never bet against Einstein. International Journal of Modern Physics D, 2022, 31(11): 2240014.
Ziparo F, Gallerani S, Ferrara A, et al. Cosmic radiation backgrounds from primordial black holes. Monthly Notices of the Royal Astronomical Society, 2022, 517(1): 1086-1097.
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