Breaking the geometric magnetic frustration in controlled off-stoichiometric LuMn1+zO3+delta compounds

This study explores controlled off-stoichiometric LuMn1+zO3+delta (vertical bar z vertical bar < 0.1) compounds, intended to retain the utter LuMnO3 intrinsic hexagonal symmetry and ferroelectric properties. X-ray powder diffraction measurements evidenced a single phase P6(3)cm structure. Thermo-...

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Detalhes bibliográficos
Autor principal: Figueiras, F. G. (author)
Outros Autores: Karpinsky, D. (author), Tavares, P. B. (author), Das, Soma (author), Leitao, J. V. (author), Bruck, E. H. (author), Agostinho Moreira, J. (author), Amaral, V. S. (author)
Formato: article
Idioma:eng
Publicado em: 1000
Assuntos:
MULTIFERROIC HEXAGONAL MANGANITES
PEROVSKITES
LUMNO3
LU
DY
FERROELECTRICITY
Texto completo:http://hdl.handle.net/10773/19749
País:Portugal
Oai:oai:ria.ua.pt:10773/19749
Descrição
Resumo:This study explores controlled off-stoichiometric LuMn1+zO3+delta (vertical bar z vertical bar < 0.1) compounds, intended to retain the utter LuMnO3 intrinsic hexagonal symmetry and ferroelectric properties. X-ray powder diffraction measurements evidenced a single phase P6(3)cm structure. Thermo-gravimetric experiments show a narrow impact of oxygen vacancies while a distinguishable gas exchange at similar to 700 K, a surprisingly lower temperature when compared to perovskite systems. A comparison of different nominal ceramics revealed pertinent structural and magnetic property variations owing to subtle self-doping effects. Deviations from the archetypal antiferromagnetic state were detected below similar to 90 K suggesting local rearrangements of the nominal Mn3+ ions matrix, breaking the ideal geometrical spin frustration, leading to a non-compensated magnetic structure.

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