Sl. Bud'Ko et al., Determination of superconducting anisotropy from magnetization data on random powders as applied to LuNi2B2C, YNi2B2C, and MgB2 - art. no. 180506, PHYS REV B, 6418(18), 2001, pp. 0506
The recently discovered intermetallic superconductor MgB2 appears to have a
highly anisotopic upper critical field with H-c2(max)/H-c2(min) = gamma >
5. in order to determine the temperature dependence of both H-c2(max) and H
-c2(min) we propose a method of extracting the superconducting anisotropy f
rom the magnetization M(H,T) of randomly oriented powder samples, The metho
d is based on two features in (partial derivativeM/partial derivativeT)(H):
the onset of diamagnetism at T-c(max), that is commonly associated with H-
c2, and a kink in partial derivativeM/partial derivativeT at a lower temper
ature T-c(min). Results for LuNi2B2C and YNi2B2C powders are in agreement w
ith anisotropic H-c2 obtained from magnetotransport measurements on single
crystals. Using this method on four different types of MgB2 powder samples
we are able to determine H-c2(min)(T) and H-c2(min)(T) with gamma approxima
te to 6.