Kamil Łapiński scite author profile

The van der Pauw method for two-dimensional samples of arbitrary shape with an isolated hole is considered. Correlations between extreme values of the resistances allow one to determine the specific resistivity of the sample and the dimensionless parameter related to the geometry of the isolated hole, known as the Riemann modulus. The parameter is invariant under conformal mappings. Experimental verification of the method is presented.

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Van der Pauw method on a sample with an isolated hole

Szymański

Cieśliński

Łapiński

2013

Physics Letters A

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Explicit results of the van der Pauw method for a sample containing an isolated hole are presented together with experimental confirmation. Results of measurements and numerical analysis strongly suggest that four probe resistivities obey inequality similar in the form to the famous van der Pauw equation. The inequality seems to be valid for any sample with an isolated hole and contacts located on the same edge, however rigorous proof is not given. The inequality can be used for experimental detection of the sample quality.Comment: 6 pages plus 4 figure

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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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Precise measurement of inhomogeneity of two dimensional system by six point method

Szymański

Łapiński

Zaleski

2016

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