H. M. Zhang scite author profile

H. M. Zhang

2Publications

41Citation Statements Received

118Citation Statements Given

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103

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Southeast University

Publications

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Hexagonal phase stabilization and magnetic orders of multiferroicLu1−xScxFeO3
Lin¹,
Zhang²,
Liu³
et al. 2016
Phys. Rev. B
63
1
33
0
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Hexagonal LuFeO3 has drawn a lot of research attention due to its contentious room-temperature multiferroicity. Due to the unstability of hexagonal phase in the bulk form, most experimental studies focused on LuFeO3 thin films which can be stabilized by strain using proper substrates. Here we report on the hexagonal phase stabilization, magnetism, and magnetoelectric coupling of bulk LuFeO3 by partial Sc-substitution of Lu. First, our first-principles calculations show that the hexagonal structure can be stabilized by partial Sc substitution, while the multiferroic properties including the noncollinear magnetic order and geometric ferroelectricity remain robustly unaffected. Therefore, Lu1-xScxFeO3 can act as a platform to check the multiferroicity of LuFeO3 and related materials in the bulk form.Second, the magnetic characterizations on bulk Lu1-xScxFeO3 demonstrate a magnetic anomaly (probable antiferromagnetic ordering) above room temperature,~425-445 K, followed by magnetic transitions in low temperatures (~167-172 K). In addition, a magnetoelectric response is observed in the low temperature region. Our study provides useful information on the multiferroic physics of hexagonal RFeO3 and related systems.PACS numbers: 75.85.+t, 71.15.Mb,

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LaSrVO4: A candidate for the spin-orbital liquid state

Dun

Garlea

et al. 2014

Phys. Rev. B

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A layered perovskite LaSrVO 4 was studied by neutron diffraction, pair distribution function measurement using synchrotron x-ray, susceptibility, and specific heat measurements, and first-principles calculation. The results show (i) a weak structural distortion around 100 K with the existence of orbital fluctuations both above and below it; (ii) the absence of the long range magnetic ordering down to 0.35 K but the appearance of a short range magnetic ordering around 11 K with a T 2 behavior of the specific heat below it. Meanwhile, the calculation based on the density functional theory predicts a magnetic ordered ground state. All facts indicate a melting of the magnetic ordering due to the orbital fluctuations in LaSrVO 4 , which makes it a rare candidate for the spin-orbital liquid state related to t 2g orbitals.

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H. M. Zhang

Hexagonal phase stabilization and magnetic orders of multiferroicLu1−xScxFeO3
Lin¹,
Zhang²,
Liu³
et al. 2016
Phys. Rev. B
63
1
33
0
View full text Add to dashboard Cite

LaSrVO4: A candidate for the spin-orbital liquid state

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H. M. Zhang

Hexagonal phase stabilization and magnetic orders of multiferroicLu1−xScxFeO3Lin1, Zhang2, Liu3 et al. 2016Phys. Rev. B631330View full textAdd to dashboardCite

LaSrVO4: A candidate for the spin-orbital liquid state

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Hexagonal phase stabilization and magnetic orders of multiferroicLu1−xScxFeO3
Lin¹,
Zhang²,
Liu³
et al. 2016
Phys. Rev. B
63
1
33
0
View full text Add to dashboard Cite