Structure and magnetic properties of new be-substituted langasites A3Ga3Ge2BeO14 (A = La, Pr, Nd, Sm, Eu)

The langasites are a class of geometrically frustrated compounds with the formula A3XY3Z2O14 where A,X,Y,Z are cationic sites and site A is occupied by a magnetic ion. The interactions of the magnetic ions form a star shaped pattern called the Kagomé lattice. The langasites have been widely studied...

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Bibliographic Details
Main Author: Sharma, Arzoo
Other Authors: Wiebe, Christopher (Chemistry)
Published: Elsevier (Journal of Solid State Chemistry) 2017
Subjects:
Online Access:http://hdl.handle.net/1993/32060
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Summary:The langasites are a class of geometrically frustrated compounds with the formula A3XY3Z2O14 where A,X,Y,Z are cationic sites and site A is occupied by a magnetic ion. The interactions of the magnetic ions form a star shaped pattern called the Kagomé lattice. The langasites have been widely studied by the solid state community because of their functional properties such as piezoelectricity, multiferroicity, ferroelectricity, dielectricity and for use in the telecommunication industry. It was also realized that some langasite materials exhibit exotic magnetic ground states at low temperatures. A thorough understanding of their ground state is limited by the difficulty in synthesizing new members belonging to this series due to the formation of competing phases such as the garnets. In this study, four new magnetic langasites A3Ga3Ge2BeO14 (A= Pr, Nd, Sm and Eu) and a non-magnetic lattice standard La3Ga3Ge2BeO14 were synthesized. These were further structurally characterized by powder X-ray diffraction, Rietveld refinement and bond valence analysis. Further characterization of the low-temperature magnetism was done by performing magnetization, magnetic susceptibility (field cooled and zero field cooled) and heat capacity measurements. The low temperature spin dynamics were probed using muon spin resonance performed at TRIUMF (Vancouver) and elastic and inelastic neutron scattering measurements performed at the DCS (NIST) and D7 (ILL). From all the above measurements it can be concluded that the new Be langasites exhibit net antiferromagnetic interactions at low-temperatures with clear signs of diffuse scattering for Nd3Ga3Ge2BeO14 using inelastic neutron scattering measurements. There was no evidence of magnetic long-range ordering down to as low as 0.025 K. Based on the obtained measurements these new Be-langasite compounds can be classified as potential spin liquid candidates. === February 2017