X-ray free-electron laser observation of giant and anisotropic magnetostriction in β-O2 at 110 Tesla
Abstract
In strong magnetic fields beyond 100 T, the significant Zeeman energy competes with the lattice interactions, where a considerable magnetostriction is expected. However, the microscopic observation of the magnetostriction above 100 T has been hindered due to the short pulse duration of μ-seconds and the coil's destruction. Here, we report the observation of the giant and anisotropic magnetostriction of 1 % at 110 T in the spin-controlled crystal, β-O2, by combining the single-shot diffraction of x-ray free-electron laser (XFEL) and the newly developed portable 100 T generator (PINK-02). The very soft and anisotropic response of β-O2 should originate in the competing van der Waals force and exchange interaction, and also the frustration of spin and lattice on the triangular network. The XFEL experiment above 100 T using PINK-02 enables microscopic investigations on materials' properties at high magnetic fields, providing insights into how spins contribute to the stability of crystal structures.
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