Deep melting reveals liquid structural memory and anomalous ferromagnetism in bismuth

Author:

Shu Yu,Yu Dongli,Hu Wentao,Wang Yanbin,Shen Guoyin,Kono Yoshio,Xu Bo,He Julong,Liu Zhongyuan,Tian Yongjun

Abstract

As an archetypal semimetal with complex and anisotropic Fermi surface and unusual electric properties (e.g., high electrical resistance, large magnetoresistance, and giant Hall effect), bismuth (Bi) has played a critical role in metal physics. In general, Bi displays diamagnetism with a high volumetric susceptibility (10−4). Here, we report unusual ferromagnetism in bulk Bi samples recovered from a molten state at pressures of 1.4–2.5 GPa and temperatures above 1,250 K. The ferromagnetism is associated with a surprising structural memory effect in the molten state. On heating, low-temperature Bi liquid (L) transforms to a more randomly disordered high-temperature liquid (L′) around 1,250 K. By cooling from above 1,250 K, certain structural characteristics of liquid L′ are preserved in L. Bi clusters with characteristics of the liquid L′ motifs are further preserved through solidification into the Bi-II phase across the pressure-independent melting curve, which may be responsible for the observed ferromagnetism.

Publisher

Proceedings of the National Academy of Sciences

Subject

Multidisciplinary

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