We have studied the phase diagram of La 1Ϫx Ca x MnO 3 for 0.5рxр0.9 using neutron powder diffraction and magnetization measurements. At 300 K all samples are paramagnetic and single phase with crystallographic symmetry Pnma. As the temperature is reduced a structural transition is observed which is to a charge-ordered state only for certain x. On further cooling the material passes to an antiferromagnetic ground state with Néel temperature T N that depends on x. For 0.8рxр0.9 the structural transformation occurs at the same temperature as the magnetic transition. Overall, the neutron-diffraction patterns were explained by considering four phase boundaries for which La 1Ϫx Ca x MnO 3 forms a distinct phase: the charge-ordered phases at xϭ0.5 and x ϭ2/3, the monoclinic and C-type magnetic structure at xϭ0. 80-0.85, and the G-type magnetic structure at xϭ1. Between these phase boundaries the magnetic reflections suggest the existence of mixed compounds containing both phases of the adjacent phase boundaries.
We report on magnetometry, resistivity and Mössbauer
spectroscopy measurements on single-phase Fe3BO5 in a
wide temperature range from 4.2 to 620 K. Magnetically split
Mössbauer spectra were observed below TN = 114 K, although a
proportion of the Fe2+ ions in the basal plane (crystallographic
site Fe1) remain paramagnetic down to the ferrimagnetic
transition at Tw = 74 K. This unusual magnetic behaviour known
as `idle-spin behaviour' can be explained by the competitive
magnetic interactions with its neighbouring ordered ions and
should be related to the topology of the octahedral Fe1 sites
in the crystal structure of Fe3BO5. The behaviour
change recorded in the dc magnetization and Mössbauer data
indicates that the magnetic structure of Fe3BO5
should change at 74 K, where the spin frustration gradually
ceases to exist. Electron delocalization in the Fe3-Fe2-Fe3
triads between pairs of Fe2+ and Fe3+ ions was
observed at all temperatures between 4.2 and 180 K and
coexists with localized ferric and ferrous (Fe1 and Fe4
crystallographic sites) states. Above 180 K the delocalization
in the Fe3-Fe2-Fe3 triads includes the rest of the Fe3+ ions and
some evidence can be seen in the resistivity data as well.
55Mn NMR line shape measurements in La1-xCaxMnO3 for 0.20< or =x< or =0.50 provide experimental evidence about the existence of two distinct regions in the T-x magnetic phase diagram, where the homogeneous ferromagnetic (FM) metallic state is separated into FM metallic and FM insulating regions. These results are in agreement with recent theoretical predictions, which reveal a novel electronic phase separation in two FM states, providing orbital ordering and Jahn-Teller phonons are taken into consideration.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.