Professor Paolo G. Radaelli OSI

Commensurate magnetic structures ofRMn2O5 (R=Y, Ho, Bi) determined by Single-crystal Neutron Diffraction

ArXiv 0710.2065 (2007)

Authors:

C Vecchini LC Chapon, PJ Brown, T Chatterji, S Park S-W Cheong, PG Radaelli

Abstract:

Precise magnetic structures of RMn2O5, with R= Y, Ho, Bi in the commensurate/ferroelectric regime, have been determined by single-crystal neutron diffraction. For each system, the integrated intensities of a large number of independent magnetic Bragg reflections have been measured, allowing unconstrained least-squares refinement of the structures. The analysis confirms the previously reported magnetic configuration in the ab-plane, in particular the existence of zig-zag antiferromagnetic chains. For the Y and Ho compounds additional weak magnetic components parallel to the c-axis were detected which are modulated in phase quadrature with the a-b components. This component is extremely small in the BiMn2O5 sample, therefore supporting symmetric exchange as the principal mechanism inducing ferroelectricity. For HoMn2O5, a magnetic ordering of the Ho moments was observed, which is consistent with a super-exchange interaction through the oxygens. For all three compounds, the point symmetry in the magnetically ordered state is m2m, allowing the polar b-axis found experimentally.

In situ neutron diffraction study of residual stress development in MgO/SiC ceramic nanocomposites during thermal cycling

Acta Materialia 55:13 (2007) 4535-4544

Authors:

RI Todd, Radaelli, P.G., Wain, N.

Orbital degeneracy removed by charge order in triangular antiferromagnet AgNiO2

(2007)

Authors:

E Wawrzynska, R Coldea, EM Wheeler, II Mazin, MD Johannes, T Sorgel, M Jansen, RM Ibberson, PG Radaelli

Structural anomalies at the magnetic transition in centrosymmetric BiMnO$_3$

(2007)

Authors:

E Montanari, G Calestani, L Righi, E Gilioli, F Bolzoni, KS Knight, PG Radaelli

Structural anomalies at the magnetic transition in centrosymmetric BiMnO$_3$

ArXiv 0704.3548 (2007)

Authors:

E Montanari, G Calestani, L Righi, E Gilioli, F Bolzoni, KS Knight, PG Radaelli

Abstract:

The structural properties of BiMn$O_3$ were determined from neutron powder diffraction data as a function of temperature and magnetic field. The structure at all temperatures was found to be centrosymmetric with space group $C2/c$, which is incompatible with ferroelectricity. At T$_C\simeq 100 K$, we observed the onset of a large magnetoelastic strain, proportional to the square of the magnetization. We interpret this structural rearrangement, together with the previously observed magnetodielectric anomalies, as due to the need to optimize the partially frustrated magnetic interactions.