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  Prokes, K.; Kimber, S.A.J.; Mydosh, J.A.; Poettgen, R.: Crystal structure transformation in CeRuSn seen via the atomic pair distribution function. Physical Review B 89 (2014), p. 064106/1-6

10.1103/PhysRevB.89.064106
Open Access Version

Abstract:
We report on the atomic pair distribution function determination in the ternary compound CeRuSn using high energy synchrotron x-ray diffraction. Above room temperature CeRuSn orders in a monoclinic structure that is related to the CeCoAl type of structure by a doubling of the c-axis parameter. Upon cooling a very broad hysteretic structural transition has been observed in CeRuSn leading to an ill-defined structure with a main component having three times larger c parameter. The pair distribution functions collected between 90 K and 315 K suggest that the local symmetry type does not change significantly during the phase transformation. However, anomalously large atomic displacement factors suggest that a wide distribution of interatomic distances exists in the sample. Limited agreement between the data at 90 K and the best fit suggests that the structure with three times larger c lattice parameter with respect to the CeCoAl type can only be regarded as an approximation to the real crystal structure of CeRuSn at low temperatures.