Browsing by Author "Cheng, Z"
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- ItemComplementary terahertz absorption and inelastic neutron study of the dynamic anisotropy contribution to zone-center spin waves in a canted antiferromagnet NdFeO3(APS Physics, 2014-08-19) Constable, E; Cortie, DL; Horvat, J; Lewis, RA; Cheng, Z; Deng, G; Cao, S; Yuan, S; Ma, GWe employ a combination of pulsed- and continuous-wave polarized terahertz spectroscopy techniques to probe temperature-dependent spin waves in the antiferromagnet NdFeO3. Our optical data span 1.6–467 K and reveal a conspicuous spin reorientation between 110 and 170 K, during which the lower-energy mode softens completely. Complementary inelastic neutron scattering reveals that the frequencies of the optically excited spin waves are consistent with a temperature-variable spin gap in the low-energy spin-wave dispersion of NdFeO3. The result links the temperature dependence of the spin waves to a dynamic in-plane anisotropy. The magnetic anisotropy is calculated based on the results of the optical measurements. The change observed in the anisotropy energy along the a and c crystal axes suggests that the spin reorientation evident in NdFeO3 is driven by temperature-dependent in-plane anisotropy.© 2014, American Physical Society.
- ItemHigh temperature anisotropy of NdFeO3 determined using time-domain THz spectroscopy(Institute of Electrical and Electronics Engineers (IEEE), 2013-09) Constable, E; Horvat, J; Cortie, DL; Cheng, Z; Yuan, S; Cao, SX; Lewis, RAThe temperature dependent anisotropic fields along two principal crystallographic axes (Ax and Az) is calculated for the canted antiferromagnet neodymium iron oxide in the temperature range 300 - 470 K. The calculation is performed using the experimentally determined temperature dispersion of two orthogonal antiferromagnetic magnons, obtained via time-domain terahertz spectroscopy. The experiment demonstrates the potential use of THz spectroscopy for characterising magnetic materials and offers a complementary technique to traditional neutron and magnetic methods. © 2013 IEEE.
- ItemSelf-assembly of a unique 3d/4f heterometallic square prismatic box-like coordination cage(Royal Society of Chemistry, 2016-05-23) Li, L; Zhang, Y; Avdeev, M; Lindoy, LF; Harman, DG; Zheng, RK; Cheng, Z; Aldrich-Wright, JR; Li, FAbstractWe present the synthesis and characterization of a unique, slightly distorted square prismatic, box-like coordination cage of type [Cu6Dy8L8(MeOH)8(H2O)6](NO3)12·χsolvent obtained via the supramolecular assembly between a non-centrosymmetric Dy(III) metalloligand and Cu(II) nitrate. Magnetic susceptibility measurements indicate that the complex behaves as a single-molecule magnet. © 2016 Royal Society of Chemistry