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The Nature of the Dark Matter: An Extrapolation of Pair Creation
Dark matter is one of the greatest unknowns in the cosmos, despite being the most important gravitational component. Indeed, dark matter is the most prevalent matter and its bulk has an impact on the design of the universe. It has permitted the construction and preservation of cosmic structures. As a result, understanding the cosmos without knowing its qualities is extremely difficult. However, it only reacts to gravity and not to the other fundamental forces. It is not a weak reaction, but rather the complete lack of direct reactivity with full spin (even in our particle accelerators). Indeed, dark matter is not only opaque to us because it lacks a measurable electromagnetic field, but it also exhibits no nuclear reaction at all. Finally, it appears to be able to influence only wide areas, implying that it lacks concentration. So the only thing we know about dark matter is its non-properties or what it does not do, which is react with our own fundamental forces (save gravity) and cover only enormous areas (big gravitational lenses). As a result, dark matter remains a big mystery. There is, however, a solution if the problem is phrased differently.
Keywords
Dark energies; Universal expansion; Pair creation; Gravity; Halo; Quarks
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- Trimble V. Existence and nature of dark matter in the universe. Annu Rev Astron. 1987;25(1):425-472.
- Hooper D, Baltz EA. Strategies for determining the nature of dark matter. Annu Rev Nucl. 2008;58(2):293-314.
- Matos T, Urena-Lopez LA. On the nature of dark matter. Int J Mod Phys D. 2004;13(10):2287-2291.
- Metcalf RB, Silk J. A Fundamental test of the nature of dark matter. Astrophysical J. 1999;19(1):234-237.
- Strigari LE, Bullock JS, Kaplinghat M. Determining the nature of dark matter with astrometry. Astrophysic J. 2007;657(1):23-27.
- Zavala J, Lovell MR, Vogelsberger M, et al. Diverse dark matter density at sub-kiloparsec scales in milky way satellites: Implications for the nature of dark matter. Phys Rev. 2019;100(6):67-69.
- Benito M, Criado JC, Hutsi G, et al. Implications of Milky Way substructures for the nature of dark matter. Phys Rev. 2020;101(10):103-123.
- Beltran M, Hooper D, Kolb EW, et al. Maverick dark matter at colliders. J High Energy Phys. 2010;21(9):1-7.
- Diemand J, Moore B, Stadel J. Earth mass dark matter haloes as the first structures in the early Universe. Nature. 2005;433(7024):389-391.
- Malhan K, Valluri M, Freese K. Probing the nature of dark matter with accreted globular cluster streams. Mon. Notices Royal Astron. 2021;501(1):179-200.
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