Institute of Metal Physics, Russian Academy of Science, Ekaterinburg, Russia.
J Phys Condens Matter. 2013 Feb 13;25(6):066004. doi: 10.1088/0953-8984/25/6/066004. Epub 2013 Jan 10.
Measurements of the magnetic susceptibility, magnetization, electrical resistivity and neutron diffraction have been performed for the compound Fe(0.5)TiS(2) in which Fe atoms are intercalated between S-Ti-S tri-layers. It has been shown that this compound with a monoclinic crystal structure exhibits an antiferromagnetic (AF) ground state below the Néel temperature T(N) ≈ 140 K. Small deviations from the stoichiometry and some disordering effects caused by the additional low-temperature heat treatment do not affect substantially the AF state in Fe(0.5)TiS(2). According to neutron diffraction data the magnetic structure at 2 K is described by the propagation vector k = (1/4,0,1/4). The Fe magnetic moments with a value of (2.9 ± 0.1) μ(B) are directed at an angle of (78.5 ± 1.8)° to the layers. Application of the magnetic field at T < T(N) induces a metamagnetic phase transition to the ferromagnetic (F) state, which is accompanied by the large magnetoresistance effect (|Δρ/ρ| up to 27%). Below 100 K, the field-induced AF-F transition is found to be irreversible, as evidenced by magnetoresistance and neutron diffraction measurements. The magnetization reversal in the metastable F state is accompanied at low temperatures by substantial hysteresis (ΔH ~ 100 kOe) which is associated with the Ising character of Fe ions.
已经对夹层化合物 Fe(0.5)TiS(2) 进行了磁化率、磁化强度、电阻率和中子衍射测量,其中 Fe 原子插入 S-Ti-S 三层之间。实验表明,这种具有单斜晶体结构的化合物在奈尔温度 T(N) ≈ 140 K 以下表现出反铁磁 (AF) 基态。化学计量比的微小偏差和低温热处理引起的一些无序效应并没有显著影响 Fe(0.5)TiS(2)中的 AF 态。根据中子衍射数据,在 2 K 下的磁结构由传播矢量 k = (1/4,0,1/4) 描述。Fe 磁矩的值为 (2.9 ± 0.1) μ(B),与层呈 (78.5 ± 1.8)°的角度。在 T < T(N) 下施加磁场会诱导出顺磁 (F) 相转变,这伴随着大磁电阻效应 (|Δρ/ρ| 高达 27%)。在 100 K 以下,磁电阻和中子衍射测量表明,场诱导的 AF-F 转变是不可逆的。在低温下,亚稳 F 态中的磁化反转伴随着很大的磁滞 (ΔH ≈ 100 kOe),这与 Fe 离子的 Ising 特性有关。
