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Upper critical fields and superconducting anisotropy of K0.70Fe1.55Se1.01S0.99 and K0.76Fe1.61Se0.96S1.04 single crystals
We have investigated temperature and angular dependence of resistivity of
K0.70(7)Fe1.55(7)Se1.01(2)S0.99(2) and K0.76(5)Fe1.61(5)Se0.96(4)S1.04(5)
single crystals. The upper critical fields Hc2(T) for both field directions
decrease with the increase in S content. On the other hand, the angle-dependent
magnetoresistivity for both compounds can be scaled onto one curve using the
anisotropic Ginzburg-Landau theory. The obtained anisotropy of Hc2(T) increases
with S content, implying that S doping might decrease the dimensionality of
certain Fermi surface parts, leading to stronger two dimensional character.Comment: 5 pages, 6 figure
Critical behavior of quasi-two-dimensional semiconducting ferromagnet CrGeTe
The critical properties of the single-crystalline semiconducting ferromagnet
CrGeTe were investigated by bulk dc magnetization around the paramagnetic
to ferromagnetic phase transition. Critical exponents
with critical temperature K and
with K are obtained by the Kouvel-Fisher method whereas
is obtained by the critical isotherm analysis at K. These critical exponents obey the Widom scaling relation , indicating self-consistency of the obtained values. With these
critical exponents the isotherm curves below and above the critical
temperatures collapse into two independent universal branches, obeying the
single scaling equation , where and are renormalized
magnetization and field, respectively. The determined exponents match well with
those calculated from the results of renormalization group approach for a
two-dimensional Ising system coupled with long-range interaction between spins
decaying as with
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