2015
DOI: 10.1103/physrevb.92.054435
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Multiferroicity in doped hexagonalLuFeO3

Abstract: The hexagonal phase of LuFeO 3 is a rare example of a multiferroic material possessing a weak ferromagnetic moment, which is predicted to be switchable by an electric field. We stabilize this structure in bulk form though Mn and Sc doping, and determine the complete magnetic and crystallographic structures using neutron-scattering and magnetometry techniques. The ferroelectric P 6 3 cm space group is found to be stable over a wide concentration range, ordering antiferromagnetically with Néel temperatures that … Show more

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Cited by 68 publications
(72 citation statements)
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“…Even though the exact T N is still under debate, the presence of net ferromagnetic moment along the c axis is evident below 160-170 K. The magnetic state below 160-170 K is confirmed in both theory and experiment to be the A 2 -dominant spin configuration (Fig. 1b), 10,15 which results in a significant cantedantiferromagnetic (or WFM) moment along the c axis. Both large spontaneous P and M do coexist below 160-170 K. More importantly, a theoretical study predicts the presence of a bulk linear ME coupling or even the direct coupling between polarization and WFM domains in h-LuFeO 3 (ref.…”
Section: Introductionmentioning
confidence: 67%
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“…Even though the exact T N is still under debate, the presence of net ferromagnetic moment along the c axis is evident below 160-170 K. The magnetic state below 160-170 K is confirmed in both theory and experiment to be the A 2 -dominant spin configuration (Fig. 1b), 10,15 which results in a significant cantedantiferromagnetic (or WFM) moment along the c axis. Both large spontaneous P and M do coexist below 160-170 K. More importantly, a theoretical study predicts the presence of a bulk linear ME coupling or even the direct coupling between polarization and WFM domains in h-LuFeO 3 (ref.…”
Section: Introductionmentioning
confidence: 67%
“…A smooth reduction of magnetic susceptibility below 75 K upon cooling may indicate the presence of a spin reorientation transition away from the A 2 spin order, which has been reported in Lu 0.5 Sc 0.5 FeO 3 (ref. 15). This behavior is also evident in the M-H curves at 5 K and 130 K (Fig.…”
Section: Magnetismmentioning
confidence: 99%
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“…This excludes Γ 3 (P 6 3 cm ), Γ 4 (P 6 3 c m) and Γ 6 (P 6 3 ) structures [9]. Hence it can be concluded from the observation of significant atomic displacements in the magnetic phase, that the magnetic structure of LuFe 0.5 Mn 0.5 O 3 must be Γ 1 below 112 K. In a recent report, Disseler et al, studied the magnetic structure of LuFe 0.75 Mn 0.25 O 3 [28]. They observed a T N ≈ 134 K and the presence of scattering intensity at (100) and (101) reflections above the T N suggesting that correlations related to both Γ 1 and Γ 2 were present.…”
Section: K 2 K A(å)mentioning
confidence: 99%
“…There are two effective routes to stabilize hexagonal polymorph of LuFeO 3 . One route is chemical doping of either Mn onto the Fe site or Sc onto the Lu site in bulk crystals [32][33][34][35] . The other is the epitaxial growth of thin films of the metastable phase on substrates with trigonal symmetry 36 .…”
mentioning
confidence: 99%