1. Magnetoresistance and magnetization processes in the helimagnetic compound DyMn6Ge6 and in related alloys Dy(Mn6Ge6)1−x(Fe6Al6)x
- Author
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Bogdan Idzikowski, Ulrich K. Rössler, Ludwig Schultz, Peter Kerschl, Konstantin Nenkov, Karl-Hartmut Müller, N. Kozlova, and Z. Śniadecki
- Subjects
Magnetoresistance ,Spin states ,Condensed matter physics ,Chemistry ,Mechanical Engineering ,Metals and Alloys ,Condensed Matter::Materials Science ,Magnetization ,Ferromagnetism ,Mechanics of Materials ,Ferrimagnetism ,Electrical resistivity and conductivity ,Materials Chemistry ,Condensed Matter::Strongly Correlated Electrons ,Helimagnetism ,Metamagnetism - Abstract
Magnetoresistance and magnetization measurements on pure DyMn 6 Ge 6 and low-doped Dy(Mn 6 Ge 6 ) 1− x (Fe 6 Al 6 ) x samples x ≤ 0.05 with the hexagonal HfFe 6 Ge 6 -type structure are used to investigate the connection between magnetoresistance and magnetization processes in these compounds. At room temperature, DyMn 6 Ge 6 shows negative magnetoresistance MR ( H ), which is related to a transition from a ferromagnetic helix state into a fan state in this compound. Below 100 K, positive MR ( H ) is found with a non-monotonic dependence in fields above 20 T. The anomalous behavior of MR ( H ) is explained by a sequence of transitions from conical helix to conical fan and a field-driven canting in the ferromagnetic Dy-Mn-subunits at higher fields. This transition transforming the ferrimagnetic fan into a ferromagnetic spin-flop state is discernible as a macroscopic metamagnetic behavior in the magnetization curves. For low substituted samples an increase of the specific resistivity and reduced magnetic ordering temperatures are found. Their MR ( H ) at high temperatures displays a similar negative behavior as the pure compound. The anomalous low-temperature magnetoresistance behavior is absent in the alloyed samples.
- Published
- 2006
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