Creative Commons License
This work is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 4.0 License.
Pressure-induced metallization and loss of surface magnetism in FeSi
Document Type
Article
Publication Date
9-11-2024
Academic Department
Physics
Abstract or Description
Single-crystalline FeSi samples with a conducting surface state were studied under high pressure and magnetic field by means of electrical resistance measurements to explore how the bulk semiconducting state and the surface state are tuned by the application of pressure. We found that the energy gap associated with the semiconducting bulk phase begins to close abruptly at a critical pressure of ∼10 GPa and the bulk material becomes metallic with no obvious sign of any emergent phases or non-Fermi liquid behavior in temperature dependent electrical resistance in the neighborhood of the critical pressure above 3 K. Moreover, the metallic phase appears to remain at near-ambient pressure upon release of the pressure. Interestingly, the hysteresis in the electrical resistance vs magnetic field curve associated with the magnetically ordered conducting surface state decreases with pressure and vanishes at the critical pressure, while the slope of the electrical resistance vs magnetic field curve, which has a negative value for pressure below the critical pressure, decreases in magnitude with pressure and changes sign at the critical pressure. Thus the conducting surface state and the corresponding two-dimensional magnetic order collapse at the critical pressure where the energy gap of the bulk material starts to close abruptly, revealing the connection between the conducting surface state and the semiconducting bulk state in FeSi.
Recommended Citation
Deng, Yuhang; Taraporevala, Farhad; Wang, Haozhe; Lee-Wong, Eric; Moir, Camilla M.; Lim, Jinhyuk; Sinha, Shubham; Xie, Weiwei; and Hamlin, James, "Pressure-induced metallization and loss of surface magnetism in FeSi" (2024). All Faculty Scholarship. 35.
https://thekeep.eiu.edu/all_faculty_pubs/35
Display as Peer Reviewed
Peer-Reviewed