Magnetic monopole's role in hydrogen bubbles formation in rapidly solidified Al–Cu–Zn alloys

Abstract

Hydrogen hydrides are formed when hydrogen is trapped in the aluminum solid solution of rapidly cooled Al–Cu–Zn alloys. The formation of these hydrides is of great interest because they have unique properties that make them useful in a variety of applications. One potential application is in the field of energy storage, where hydrogen hydrides could be used as a way to store hydrogen for use in fuel cells. Another potential application is in the field of catalysis, where these materials could be used to promote chemical reactions. Highlighting of magnetic monopoles in Al-30 wt%Cu-2wt.%Zn and stable skyrmions, at room temperature, in non-magnetic Al-50 wt%Cu-2wt.%Zn is also groundbreaking development in the field of materials science, as it suggests that there may be new ways to manipulate and control the properties of these materials. We observed a remarkable consequence of these phenomena: the transmutation of aluminum into silicon. This is a significant finding, as we believe we are the first to approach this process in this way. This could lead to breakthroughs in materials science and engineering, with potential applications in fields such as electronics, photonics, and nanotechnology.