The physical properties of RNiSb (R=rare earth) have been investigated
by magnetization, resistivity and magnetoresistance measurements.
The light rare earth compounds are metallic, while those with Tb,
Dy, Ho, are semiconductors with a giant negative magnetoresistance.
With the exception of the Pauli-paramagnets LaNiSb and YNiSb, all
those compounds have a Curie-Weiss magnetism. CeNiSb and NdNiSb are
ferromagnetic probably with an additional modulated component for
Ce, the heavy rare earths TbNiSb, DyNiSb and HoNiSb compounds order
antiferromagnetically at low temperatures.
%0 Journal Article
%1 Karla1998
%A Karla, I.
%A Pierre, J.
%A Skolozdra, R. V.
%D 1998
%J Journal of Alloys and Compounds
%K Electronic Magnetotransport Rare Semiconductors antimonides, conduction, earth effects, magnetically materials, nickel ordered
%N 1-2
%P 42--48
%T Physical properties and giant magnetoresistance in RNiSb compounds
%U http://www.sciencedirect.com/science/article/B6TWY-3XD42H7-9/2/4850c4717e6fd0d53a6273340e6e94e5
%V 265
%X The physical properties of RNiSb (R=rare earth) have been investigated
by magnetization, resistivity and magnetoresistance measurements.
The light rare earth compounds are metallic, while those with Tb,
Dy, Ho, are semiconductors with a giant negative magnetoresistance.
With the exception of the Pauli-paramagnets LaNiSb and YNiSb, all
those compounds have a Curie-Weiss magnetism. CeNiSb and NdNiSb are
ferromagnetic probably with an additional modulated component for
Ce, the heavy rare earths TbNiSb, DyNiSb and HoNiSb compounds order
antiferromagnetically at low temperatures.
@article{Karla1998,
abstract = {The physical properties of RNiSb (R=rare earth) have been investigated
by magnetization, resistivity and magnetoresistance measurements.
The light rare earth compounds are metallic, while those with Tb,
Dy, Ho, are semiconductors with a giant negative magnetoresistance.
With the exception of the Pauli-paramagnets LaNiSb and YNiSb, all
those compounds have a Curie-Weiss magnetism. CeNiSb and NdNiSb are
ferromagnetic probably with an additional modulated component for
Ce, the heavy rare earths TbNiSb, DyNiSb and HoNiSb compounds order
antiferromagnetically at low temperatures.},
added-at = {2009-09-09T17:55:18.000+0200},
author = {Karla, I. and Pierre, J. and Skolozdra, R. V.},
biburl = {https://www.bibsonomy.org/bibtex/29b09fecb55f073ab6b7ce9ae88244598/pbuczek},
interhash = {44386916f19da8af216185998ee5cb04},
intrahash = {9b09fecb55f073ab6b7ce9ae88244598},
journal = {Journal of Alloys and Compounds},
keywords = {Electronic Magnetotransport Rare Semiconductors antimonides, conduction, earth effects, magnetically materials, nickel ordered},
month = {January},
number = {1-2},
owner = {pbuczek},
pages = {42--48},
timestamp = {2009-09-09T17:55:35.000+0200},
title = {Physical properties and giant magnetoresistance in RNiSb compounds},
url = {http://www.sciencedirect.com/science/article/B6TWY-3XD42H7-9/2/4850c4717e6fd0d53a6273340e6e94e5},
volume = 265,
year = 1998
}