Magnetization of the Mn$_{1-x}$Fe$_x$Si in high magnetic field up to 50 T: possible evidence of a field-induced Griffiths phase

A.N. Samarin; I.I. Lobanova; J. Huang; J. Vanacken; M.Yu. Kagan; N.E. Sluchanko; N.M. Chubova; S.V. Demishev; S.V. Grigoriev; V.A. Dyadkin

arxiv: 1605.05519 · v2 · pith:A7H3WUNBnew · submitted 2016-05-18 · ❄️ cond-mat.str-el

Magnetization of the Mn_(1-x)Fe_xSi in high magnetic field up to 50 T: possible evidence of a field-induced Griffiths phase

S.V. Demishev , A.N. Samarin , J. Huang , V.V. Glushkov , I.I. Lobanova , N.E. Sluchanko , N.M. Chubova , V.A. Dyadkin

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S.V. Grigoriev M.Yu. Kagan J. Vanacken V.V. Moshchalkov

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keywords magneticfieldfieldsmagnetizationphasealphafield-inducedgriffiths

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Magnetic properties of single crystals of Mn$_{1-x}$Fe$_x$Si solid solutions with $x < 0.2$ are investigated by pulsed field technique in magnetic fields up to 50 T. It is shown that magnetization of Mn$_{1-x}$Fe$_x$Si in the paramagnetic phase follows power law $M(B) \sim B^\alpha$ with the exponents $\alpha \sim 0.33-0.5$, which starts above characteristic fields $B_c \sim 1.5-7$ T depending on the sample composition and lasts up to highest used magnetic field. Analysis of magnetization data including SQUID measurements in magnetic fields below 5 T suggests that this anomalous behavior may be likely attributed to the formation of a field-induced Griffiths phase in the presence of spin-polaron effects.

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Magnetization of the Mn_(1-x)Fe_xSi in high magnetic field up to 50 T: possible evidence of a field-induced Griffiths phase

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