2014
DOI: 10.3389/fphy.2014.00042
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Incommensurate antiferromagnetic order in the manifoldly-frustrated SrTb2O4 with transition temperature up to 4.28 K

Abstract: The Néel temperature of the new frustrated family of SrRE 2 O 4 (RE = rare earth) compounds is yet limited to ∼0.9 K, which more or less hampers a complete understanding of the relevant magnetic frustrations and spin interactions and an exploration of potential interesting properties. Here we report on a new frustrated member to the family, SrTb 2 O 4 with a record T N = 4.28(2) K, and an experimental study of the magnetic interacting and frustrating mechanisms by polarized and unpolarized neutron scattering. … Show more

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Cited by 27 publications
(30 citation statements)
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“…Nuclear coherent scattering of polarized neutrons will not flip the neutron spin. Magnetic scattering via polarized neutrons can flip the neutron spin and is determined by the relative direction of the neutron polarization vector with regard to both the scattering vector and the direction of the ordered-moments 56 57 . In our study, is normal to the scattering plane ( H , 0, L ), i.e., parallel to the b (or a ) axis.…”
Section: Resultsmentioning
confidence: 99%
“…Nuclear coherent scattering of polarized neutrons will not flip the neutron spin. Magnetic scattering via polarized neutrons can flip the neutron spin and is determined by the relative direction of the neutron polarization vector with regard to both the scattering vector and the direction of the ordered-moments 56 57 . In our study, is normal to the scattering plane ( H , 0, L ), i.e., parallel to the b (or a ) axis.…”
Section: Resultsmentioning
confidence: 99%
“…In contrast, NPD shows that SrYb 2 O 4 is characterized by long-range Néel order on both Yb sites, although the ordered Yb moment is drastically suppressed on one of the two sites [22]. Finally, SrDy 2 O 4 shows evidence for quasi-1D, UUDD magnetic correlations in zero field down to 50 mK [16], SrTb 2 O 4 displays long-range incommensurate magnetic order arising from only one of the two Tb sites [23], and SrTm 2 O 4 shows no signs of magnetic ordering down to 65 mK [24]. The low or nonexistent magnetic ordering temperatures, coupled with the variety of observed behavior, suggest that some combination of competing exchange interactions, single ion anisotropy, magnetic dipole interactions, and low dimensionality play important roles in shaping the magnetic phase diagrams of these materials.…”
Section: Introductionmentioning
confidence: 89%
“…A wide variety of unconventional magnetic properties observed in these compounds includes a coexistence of long-range antiferromagnetic and short-range incommensurate order in SrEr 2 O 4 [3,4], two types of short-range order in SrHo 2 O 4 [5][6][7], noncollinear order in SrYb 2 O 4 [8], incommensurate magnetic structure in SrTb 2 O 4 [9], and the absence of the longer-range magnetic correlations in SrDy 2 O 4 down to the lowest experimentally available temperatures [10]. To elucidate and model specific magnetic properties of these oxides, which can be described as geometrically frustrated multisublattice magnets with a quasione-dimensional space structure, it is necessary to establish the spectral properties of the magnetic subsystem formed by the RE ions.…”
Section: Introductionmentioning
confidence: 99%