A new green Dy2BaCoO5 oxide has been prepared at 1300-degrees-C in an
argon flow. X-Ray diffraction data reveal that it crystallizes with th
e Sm2BaCuO5 structure type, space group Pnma and lattice parameters a
= 12.3375(4) angstrom, b = 5.7250(2) angstrom and c = 7.0880(2) angstr
om. When the synthesis is carried out at a lower temperature of 910-de
grees-C, the previously reported brown Dy2BaCoO5 oxide is obtained wit
h the Nd2BaNiO5 structure type, space group Immm and lattice parameter
s a = 3.7475(3) angstrom, b = 5.8039(4) angstrom and c = 11.5082(7) an
gstrom. A tentative model relating the two structure types is given. M
agnetic susceptibility data reveal a very different behaviour of the t
wo oxides, which has been explained by taking into account their struc
tures. At low temperature antiferromagnetic ordering has been observed
in both the cobalt and dysprosium sublattices and the estimated Neel
temperatures are 10.4 and 4.5 K for the Immm and Pnma forms of Dy2BaCo
O5 respectively.