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Abstract
Quark nuggets are theoretical objects composed of approximately equal numbers of up, down, and strange quarks and are also called strangelets and nuclearites. They have been proposed as a candidate for dark matter, which constitutes ~85% of the universe’s mass and which has been a mystery for decades. Previous efforts to detect quark nuggets assumed that the nuclear-density core interacts directly with the surrounding matter so the stopping power is minimal. Tatsumi found that quark nuggets could well exist as a ferromagnetic liquid with a ~1012-T magnetic field. We find that the magnetic field produces a magnetopause with surrounding plasma, as the earth’s magnetic field produces a magnetopause with the solar wind, and substantially increases their energy deposition rate in matter. We use the magnetopause model to compute the energy deposition as a function of quark-nugget mass and to analyze testing the quark-nugget hypothesis for dark matter by observations in air, water, and land. We conclude the water option is most promising.
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Details
1 VanDevender Enterprises LLC, Albuquerque, NM, USA
2 Founders Fund, One Letterman Drive, San Francisco, CA, USA
3 Department of Physics, Lancaster University, Lancaster, UK
4 The Pineridge Group, Boulder, CO, USA
5 School of Geography and Environmental Sciences, Ulster University, Northern Ireland, UK
6 Sandia National Laboratories, Albuquerque, NM, USA
7 Cross Marine Projects, American Fork, UT, USA
8 Ardaturr, Churchill PO, Letterkenny, Co., Donegal, Ireland