Multiple magnetic transitions in multiferroic BiMnO3
C. C. Chou, C. L. Huang, S. Mukherjee, Q. Y. Chen, H. Sakurai, A. A., Belik, E. Takayama-Muromachi, and H. D. Yang
TL;DR
This study investigates how hydrostatic pressure affects the magnetic phase transitions in multiferroic BiMnO3, revealing three distinct transitions with complex pressure and magnetic field dependencies, linked to structural changes.
Contribution
It provides detailed insights into pressure-induced magnetic transitions in BiMnO3, identifying three specific magnetic phases and their behavior under varying conditions, which was not previously characterized.
Findings
Three magnetic transitions identified at specific pressures
Pressure influences transition temperatures differently for each phase
Magnetic phases linked to structural variations under pressure
Abstract
The magnetic phase variations under hydrostatic pressure on multiferroic BiMnO3 have been examined by the dc magnetization [Mg(T)], magnetic hysteresis [Ueff(H)], and ac susceptibility [X'g(T)]. Three magnetic transitions, manifested as kinks I, II, and III on the Mg(T)], curves, were identified at 8.7 and 9.4 kbar. With increasing pressure, transition temperatures of kink I and kink II TkI and TkII tend to decrease, but the temperature of kink III TkIII showed more complex variation. Under increasing magnetic field, TkI and TkII increase; however, TkIII decreases. Combining [Mg(T)] curves with Ueff(H) and X'g(T), more detailed properties of these three kinks would be shown as follows. Kink I is a long-range soft ferromagnetic transition which occurs at TkI 100 K under ambient pressure but is suppressed completely at 11.9 kbar. Kink II emerges at 8.7 kbar along with TkII 93 K which is…
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