K. Perzyńska scite author profile

K. Perzyńska

3Publications

67Citation Statements Received

92Citation Statements Given

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Affiliations

University of Białystok, Institute of Physics, Institute of Experimental Physics

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The crystal and magnetic structures of intermetallic compounds

Rećko

Biernacka

Dobrzyński

et al. 1997

J. Phys.: Condens. Matter

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The powder samples of (x = 4, 5 and 6) alloys have been measured by means of magnetization, Mössbauer effect, x-ray and neutron diffraction techniques in the temperature range 1.5 - 400 K. Both neutron and x-ray diffraction experiments showed that the positions f in all samples are occupied by iron, while the iron atoms in the samples with x = 5 and 6 locate also at j sites. A little f - j disorder exists in . The paper shows a change of the magnetic structure with an increase of iron content. The magnetic moments lie in a basal a - b plane. Iron atoms in alloy order antiferromagnetically. and alloys exhibit in general a ferromagnetic behaviour. However a detailed distribution of magnetic moments among different sites could not be determined unambiguously from the neutron data only. Nevertheless, combining information from neutron and Mössbauer experiments, one can infer that the ordering among iron atoms must be non-collinear. A magnetic ordering among uranium atoms has been found in only. Low-temperature thermal expansion varies nonlinearly with temperature and in all samples is negligible at low temperatures.

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The crystal and magnetic structures of UFexAl1 2−x alloys

Rećko

Biernacka

Dobrzyński

et al. 1997

Physica B: Condensed Matter

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Determination of the Riemann modulus and sheet resistivity by a six-point generalization of the van der Pauw method

Szymański¹,

Łapiński²,

Cieśliński³

et al. 2015

Meas. Sci. Technol.

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Six point generalization of the van der Pauw method is presented. The method is applicable for two dimensional homogeneous systems with an isolated hole. A single measurement performed on the contacts located arbitrarily on the sample edge allows to determine the specific resistivity and a dimensionless parameter related to the hole, known as the Riemann modulus. The parameter is invariant under conformal mappings of the sample shape. The hole can be regarded as a high resistivity defect. Therefore the method can be applied for experimental determination of the sample inhomogeneity.

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K. Perzyńska

The crystal and magnetic structures of intermetallic compounds

The crystal and magnetic structures of UFexAl1 2−x alloys

Determination of the Riemann modulus and sheet resistivity by a six-point generalization of the van der Pauw method

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