A structural and magnetic study of Nd5Fe2B6 and Nd5Fe2B6D4.1
Language
en
Article de revue
This item was published in
Journal of Alloys and Compounds. 2017, vol. 693, p. 887-894
Elsevier
English Abstract
We investigated the structural and magnetic properties of the boride Nd5Fe2B6 and of the deuteride Nd5Fe2B6D4.1 by means of magnetization and specific heat measurements, Mössbauer spectroscopy and neutron powder diffraction. ...Read more >
We investigated the structural and magnetic properties of the boride Nd5Fe2B6 and of the deuteride Nd5Fe2B6D4.1 by means of magnetization and specific heat measurements, Mössbauer spectroscopy and neutron powder diffraction. In Nd5Fe2B6D4.1, deuterium atoms are located in two inequivalent interstitial sites: one octahedral D1 [Nd6] and one tetrahedral D2 [Nd3Fe], both avoiding B as near neighbor. This insertion induces a pronounced anisotropic unit cell expansion along the c-axis. While the Nd5Fe2B6 compound exhibits a magnetic ordering below about 68 K, the deuteride exhibits a lower ordering temperature of about 21 K as a consequence of D insertion in the Nd environment. For both compounds powder neutron diffraction investigations have evidenced a ferromagnetic structure with magnetic moments along the c-axis. However, in the deuteride, the Nd magnetic moments values are reduced and that of Fe vanishes. 57Fe Mössbauer spectroscopy confirms the existence of a small ordered magnetic moment on iron in Nd5Fe2B6 and the presence of two environments for Fe in the deuteride.Read less <
English Keywords
Boron hydride
Hydrogenation
Magnetic measurements
57Fe Mössbauer spectroscopy
Neutron diffraction
Magnetic structure
Origin
Hal imported