Magnetic structures of (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 studied by neutron powder diffraction

Magnetic structures of (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 studied by neutron powder diffraction

Magnetic structures and magnetic phase transitions in “naturaly-layered” (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 compounds have been studied by electrical resistivity and neutron powder diffraction experiments. Hot neutrons were used to probe the magnetic structures of Gd-containing materials. The varia...

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Main Authors: Granovsky Sergey, Gaidukova Irina, Ritter Clemens
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:EPJ Web of Conferences
Online Access:https://doi.org/10.1051/epjconf/201818504009
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spelling doaj-c4b8a0fe31344364b20a2e40f05d272f2021-08-02T06:48:51ZengEDP SciencesEPJ Web of Conferences2100-014X2018-01-011850400910.1051/epjconf/201818504009epjconf_mism2017_04009Magnetic structures of (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 studied by neutron powder diffractionGranovsky SergeyGaidukova IrinaRitter ClemensMagnetic structures and magnetic phase transitions in “naturaly-layered” (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 compounds have been studied by electrical resistivity and neutron powder diffraction experiments. Hot neutrons were used to probe the magnetic structures of Gd-containing materials. The variable R-Mn exchange forces Gd moments to realign from the tetragonal axis into the plane and back to this axis, whereas canted and tripled structures were detected in the series of compounds containing the highly anisotropic Tb-ion.https://doi.org/10.1051/epjconf/201818504009
collection DOAJ
language English
format Article
sources DOAJ
author Granovsky Sergey
Gaidukova Irina
Ritter Clemens
spellingShingle Granovsky Sergey
Gaidukova Irina
Ritter Clemens
Magnetic structures of (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 studied by neutron powder diffraction
EPJ Web of Conferences
author_facet Granovsky Sergey
Gaidukova Irina
Ritter Clemens
author_sort Granovsky Sergey
title Magnetic structures of (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 studied by neutron powder diffraction
title_short Magnetic structures of (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 studied by neutron powder diffraction
title_full Magnetic structures of (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 studied by neutron powder diffraction
title_fullStr Magnetic structures of (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 studied by neutron powder diffraction
title_full_unstemmed Magnetic structures of (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 studied by neutron powder diffraction
title_sort magnetic structures of (gd1-xyx)mn2ge2 and (tb1-xyx)mn2ge2 studied by neutron powder diffraction
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2018-01-01
description Magnetic structures and magnetic phase transitions in “naturaly-layered” (Gd1-xYx)Mn2Ge2 and (Tb1-xYx)Mn2Ge2 compounds have been studied by electrical resistivity and neutron powder diffraction experiments. Hot neutrons were used to probe the magnetic structures of Gd-containing materials. The variable R-Mn exchange forces Gd moments to realign from the tetragonal axis into the plane and back to this axis, whereas canted and tripled structures were detected in the series of compounds containing the highly anisotropic Tb-ion.
url https://doi.org/10.1051/epjconf/201818504009
work_keys_str_mv AT granovskysergey magneticstructuresofgd1xyxmn2ge2andtb1xyxmn2ge2studiedbyneutronpowderdiffraction
AT gaidukovairina magneticstructuresofgd1xyxmn2ge2andtb1xyxmn2ge2studiedbyneutronpowderdiffraction
AT ritterclemens magneticstructuresofgd1xyxmn2ge2andtb1xyxmn2ge2studiedbyneutronpowderdiffraction
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