X. H. Liu scite author profile

X. H. Liu

3Publications

51Citation Statements Received

57Citation Statements Given

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Affiliations

International Centre for Materials Physics, Chinese Academy of Sciences

Publications

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Giant reversible magnetocaloric effect in cobalt hydroxide nanoparticles

Liu¹,

Liu²,

Hu³

et al. 2008

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The magnetocaloric effect associated with magnetic phase transitions in ␤-Co͑OH͒ 2 nanoparticles has been investigated. A sign change in the magnetocaloric effect is induced by a magnetic field, which is related to a field-induced transition from the antiferromagnetic to the ferromagnetic state below the Néel temperature. The large reversible magnetic-entropy change −⌬S m ͑20.9 J / kg K at 15 K for a field change of 7 T͒ indicates that ␤-Co͑OH͒ 2 is a potential candidate for application in magnetic refrigeration in the low-temperature range.

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Effects of anisotropy and spin-asymmetry of ferromagnetic materials in ferromagnetic/Cr2O3/ferromagnetic trilayers

Liu

Guo

et al. 2010

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Strong effects of ferromagnetic ͑FM͒ materials on the exchange coupling are observed at different temperatures in FM 1 ͑3 nm͒ / Cr 2 O 3 ͑6 nm͒ / FM 2 ͑10 nm͒ trilayers with FMϵ Co, Fe, or Ni 80 Fe 20. Changes of the anisotropy of FM and spin-asymmetry of the reflection coefficients for spin-up and spin-down electrons of FM contacted the antiferromagnetic layer influence the strength of interfacial and interlayer coupling of the trilayers. Thus, the reduction of the interfacial coupling and the enhancement of the interlayer coupling with increasing temperature result in quite different magnetic behavior of different trilayers.

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Exchange coupling in hard/soft-magnetic multilayer films with non-magnetic spacer layers

Cui

Liu

Gong

et al. 2012

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The exchange coupling in textured HM/NM/α-Fe/NM/HM multilayer films (HM = NdFeB or PrFeB hard magnetic layers; NM = nonmagnetic Mo, Cu, and Cr layer) is shown to be indirect and long-range. The influences of thickness of NM spacer layer and HM layer, the material of HM phase and NM spacer layers, and the texture of HM layer, on the effective critical correlation length (Lexeff) and exchange-coupling between soft-magnetic (SM) and HM layers are investigated. A non-linear dependence of Lexeff on the thickness of NM spacer layer is observed. Magnetostatic interaction may lead to the observed non-linear dependence.

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X. H. Liu

Giant reversible magnetocaloric effect in cobalt hydroxide nanoparticles

Effects of anisotropy and spin-asymmetry of ferromagnetic materials in ferromagnetic/Cr2O3/ferromagnetic trilayers

Exchange coupling in hard/soft-magnetic multilayer films with non-magnetic spacer layers

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