T. Tarnóczi scite author profile

Investigations of the magnetic properties in the ordered CuAu-I-type manganese alloys are reviewed. The formation of the ordered phase and the possible magnetic structures are discussed. New experimental results for the Mn-Ni, Mn-Pd, and Mn-Pt systems are reported. Neutron diffraction shows the basic antiferromagnetic structure to be the same for all the alloys investigated. In MnPt a magnetic-structure transformation has been observed. Below 800°K the magnetic moments turn from the basal plane gradually to the tetragonal axis. The variation of the transition temperature in the Mn-Pt system as well as that of the Néel temperature in the Mn-Ni, Mn-Pd, and Mn-Pt systems with concentration were measured and are theoretically analyzed. The dependence of lattice parameters on concentration and temperature was determined. The lattice parameters suffer a significant but continuous change near the Néel temperature which is attributed to Mn-Mn exchange interaction. Magnetic susceptibility measurements support the neutron-diffraction results. The increase in susceptibility, observed by several authors at lower temperatures, is found to be a result of contaminations.

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Structure and properties of fine-grained electrodeposited nickel

Bakonyi

Tóth-Kádár

Tarnóczi

et al. 1993

Nanostructured Materials

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Magnetic and electrical transport properties of electrodeposited Ni-Cu alloys and multilayers

Bakonyi

Tóth-Kádár

Tóth

et al. 1999

J. Phys.: Condens. Matter

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Electrodeposited Ni-Cu alloys and nanoscale Ni-Cu/Cu multilayers were produced by direct-current plating and pulse-plating, respectively. The room-temperature electrical resistivity and thermopower as well as the Curie temperature for the Ni-Cu electrodeposits were in good agreement with relevant data reported for metallurgically processed Ni-Cu alloys. The same parameters were investigated also for the multilayers as a function of the constituent magnetic and non-magnetic layer thicknesses. The electrical resistivity of the multilayers was much larger than calculated for a parallel resistance model and their thermopower was more negative than expected on the basis of a volume average model, by using bulk values of both parameters for the sublayer materials. These differences were ascribed to surface scattering processes which can be significant in nanoscale multilayer structures.

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T. Tarnóczi

Magnetic Structures and Exchange Interactions in the Mn-Pt System

Magnetic Structures and Phase Transformations in Mn-Based CuAu-I Type Alloys

Structure and properties of fine-grained electrodeposited nickel

Magnetic and electrical transport properties of electrodeposited Ni-Cu alloys and multilayers

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