X-ray and neutron scattering

Mise en œuvre de la technologie de l'information en vue d'améliorer la santé en milieu de travail: une évaluation par le Web des besoins d'information des gestionnaires de la Fraser Health Authority, en Colombie-Britannique

Healthcare Management Forum SAGE Publications 18:4 (2005) 11-16

Authors:

Jag S Sandhu, Keith Anderson, Dave Keen, Annalee Yassi

Effect of pressure and magnetic field on bilayer La1.25Sr 1.75Mn2O7 single crystal

Solid State Communications 136:5 (2005) 292-296

Authors:

S Arumugam, K Mydeen, M Fontes, N Manivannan, MK Vanji, KU Ramatulasi, SM Ramos, EB Saitovitch, D Prabhakaran, AT Boothroyd

Abstract:

We report the temperature dependence of susceptibility for various pressures, magnetic fields and constant magnetic field of 5 T with various pressures on La2-2xSr1+2xMn2O7 single crystal to understand the effectiveness of pressure and magnetic field in altering the magnetic properties. We find that the Curie temperature, T c, increases under pressure (dTc/dP=10.9 K/GPa) and it indicates the enhancement of ferromagnetic phase under pressure up to 2 GPa. The magnetic field dependence of Tc is about 26 K for 3 T. The combined effect of pressure and constant magnetic field (5 T) shows dT c/dP=11.3 K/GPa and the peak structure is suppressed and broadened. The application of magnetic field of 5 T realizes 3D spin ordered state below Tc at atmospheric pressure. Both peak structure in χc and 3D spin ordered state are suppressed, and changes to 2D-like spin ordered state by increase of pressure. These results reveal that the pressure and the magnetic field are more competitive in altering the magnetic properties of bilayer manganite La1.25Sr1.75Mn2O7 single crystal. © 2005 Elsevier Ltd. All rights reserved.

Critical behaviour of RMnO3 (R ≤ La, Pr, Nd) by thermal diffusivity and specific heat measurements

Journal of Physics Condensed Matter 17:42 (2005) 6729-6736

Authors:

A Oleaga, A Salazar, D Prabhakaran, AT Boothroyd

Abstract:

An ac photopyroelectric calorimeter has been used to measure the thermal diffusivity and specific heat of the perovskite manganites RMnO3 (R ≤ La, Pr, Nd) close to their magnetic transitions. Taking into account that the inverse of the thermal diffusivity has the same critical behaviour as the specific heat, the critical exponent α of the magnetic transition has been obtained by means of both magnitudes. The results in all cases are consistent with the Heisenberg model (α ≤ -0.11), irrespective of the rare-earth ion. © 2005 IOP Publishing Ltd.

On the Ordering of Na$^+$ Ions in Na$_x$CoO$_2$

(2005)

Authors:

M Roger, DJP Morris, DA Tennant, MJ Gutmann, JP Goff, D Prabhakaran, N Shannon, B Lake, AT Boothroyd, R Coldea, P Deen

Spin gaps and magnetic structure of NaxCoO2

(2005)

Authors:

LM Helme, AT Boothroyd, R Coldea, D Prabhakaran, A Stunault, GJ McIntyre, N Kernavanois