Spin glass behavior and magnetic boson peak in a structural glass of a magnetic ionic liquid
Maiko Kofu, Ryuta Watanuki, Toshiro Sakakibara, Seiko Ohira‐Kawamura, Kenji Nakajima, Masato Matsuura, Takeshi Ueki, Kazuhiro Akutsu, Osamu Yamamuro
Abstract
Abstract Glassy magnetic behavior has been observed in a wide range of crystalline magnetic materials called spin glass. Here, we report spin glass behavior in a structural glass of a magnetic ionic liquid, C4mimFeCl 4 . Magnetization measurements demonstrate that an antiferromagnetic ordering occurs at T N = 2.3 K in the crystalline state, while a spin glass transition occurs at T SG = 0.4 K in the structural glass state. In addition, localized magnetic excitations were found in the spin glass state by inelastic neutron scattering, in contrast to spin-wave excitations in the ordered phase of the crystalline sample. The localized excitation was scaled by the Bose population factor below T SG and gradually disappeared above T SG . This feature is highly reminiscent of boson peaks commonly observed in structural glasses. We suggest the “magnetic” boson peak to be one of the inherent dynamics of a spin glass state.