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The Tricritical Point of the f-electron Antiferromagnet USb2 Driven by High Magnetic Fields

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arxiv 1609.09845 v1 pith:4SAY4X4X submitted 2016-09-30 cond-mat.str-el

The Tricritical Point of the f-electron Antiferromagnet USb2 Driven by High Magnetic Fields

classification cond-mat.str-el
keywords fieldsdecreasedhighmagneticmomenttransitionmeasurementsmetamagnetic-like
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In pulsed magnetic fields up to 65T and at temperatures below the N\'eel transition, our magnetization and magnetostriction measurements reveal a field-induced metamagnetic-like transition that is suggestive of an antiferromagnetic to polarized paramagnetic or ferrimagnetic ordering. Our data also suggests a change in the nature of this metamagnetic-like transition from second- to first-order-like near a tricritical point at T_{tc} ~145K and H_{c}~52T. At high fields for H>H_{c} we found a decreased magnetic moment roughly half of the moment reported in low field measurements. We propose that \mathit{f-p} hybridization effects and magnetoelastic interactions drive the decreased moment, lack of saturation at high fields, and the decreased phase boundary.

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