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Paper detail

Weak magnetic transitions in pyrochlore Bi2Ir2O7

Muon spin relaxation measurements on Bi2Ir2O7 show that it undergoes a bulk magnetic transition at 1.84(3) K. This is accompanied by increases in the muon spin relaxation rate and the amplitude of the non-relaxing part of the signal. The magnetic field experienced by muons is estimated to be 0.7 mT at low-temperature, around two orders of magnitude smaller than that in other pyrochlore iridates. These results suggest that the low-temperature state represents ordering of exceptionally small magnetic moments with persistent weak dynamics. The relaxation rate increases further below 0.23(4) K, coincident with a growth in the specific heat, suggesting the existence of a second low-temperature magnetic transition.

preprint2013arXivOpen access
P. J. BakerJ. S. MoellerF. L. PrattW. HayesS. J. BlundellT. LancasterT. F. QiG. Cao
cond-mat.str-el
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P. J. BakerJ. S. MoellerF. L. PrattW. HayesS. J. BlundellT. LancasterT. F. QiG. Cao

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