Investigation made by powder X-ray diffraction, susceptibility measurement
and powder neutron diffraction on the new TiNiSi-type (S.G. Pnma) TbMnSi, D
yMnSi and NdMnGe compounds in a high-temperature form are reported. All thr
ee compounds are antiferromagnetic below T-N = 410, 400 and 430 K, respecti
vely. Between T-N and T-t (<150 K), their magnetic structures are collinear
antiferromagnetic, with Mn moments aligned along [100] in the case of TbMn
Si and DyMnSi and COO II in the case of NdMnGe. Below T-t, flat spiral stru
ctures characterized by a (q(x), 0, 0) wave vector and the Mn and R (Tb, Dy
and Nd) moments lying in the (0 0 I) plane take place. At 2 K, the values
of the magnetic moments are: mu(Mn) = 3.30 (5) mu(B), mu(Tb) = 8.63 (5) mu(
B); mu(Mn) = 3.2 (1) mu(B), mu(Dy) = 9.1(2) mu(B) and mu(Mn) = 3.73 (10) mu
(B), mu(Nd) = 3.30 (8) mu(B) for TbMnSi, DyMnSi and NdMnGe, respectively. I
n the whole ordered range, the magnetic structures are characterized by ant
iferromagnetic Mn-Mn [010] zig-zag chains. The results are discussed and co
mpared with those previously obtained on the corresponding CeFeSi-type (S.G
. P4/nmm) TbMnSi and NdMnGe compounds. The Mn sublattice magnetic behaviour
is also examined in the whole TiNiSi-type ternary silicides and germanides
series. (C) 1999 Elsevier Science B.V. All rights reserved.