X-ray and neutron scattering

Advances in the understanding of multiferroics through soft X-ray diffraction

European Physical Journal: Special Topics 208:1 (2012) 99-106

Authors:

TAW Beale, SB Wilkins, RD Johnson, D Prabhakaran, AT Boothroyd, P Steadman, SS Dhesi, PD Hatton

Abstract:

The magneto-electric multiferroic TbMn 2O 5 has a complex magnetic structure in three different magnetically ordered phases. We have determined the nature of the induced magnetic order on the oxygen sites in the commensurate magnetic phase through full linear X-ray polarisation analysis at the oxygen K edge. This has been achieved rotating the linear polarisation of the incident beam at the source, and using multilayers to analyse the polarisation state of the scattered X-ray beam. We have confirmed that the anisotropy of the magnetic scattering at the oxygen edge is consistent with the anisotropy of the manganese magnetic structure. © 2012 EDP Sciences, Springer-Verlag.

Dynamical matrix diagonalization for the calculation of dispersive excitations.

J Phys Condens Matter 24:21 (2012) 213201

Authors:

Martin Rotter, Manh Duc Le, Andrew T Boothroyd, Jesus Angel Blanco

Abstract:

The solid state exhibits a fascinating variety of phases, which can be stabilized by the variation of external parameters such as temperature, magnetic field and pressure. Until recently, numerical analysis of magnetic and/or orbital phases with collective excitations on a periodic lattice tended to be done on a case-by-case basis. Nowadays dynamical matrix diagonalization (DMD) has become an important and powerful standard method for the calculation of dispersive modes. The application of DMD to the interpretation of inelastic neutron scattering (INS) data on dispersive magnetic excitations is reviewed. A methodical survey of calculations employing spin-orbit and intermediate coupling schemes is illustrated by examples. These are taken from recent work on rare earth, actinide and transition metal compounds and demonstrate the application of the formalism developed.

The Magnetic Structure of DyMn2O5 Determined by Resonant X-ray Scattering

(2012)

Authors:

GE Johnstone, RA Ewings, RD Johnson, C Mazzoli, HC Walker, AT Boothroyd

From quantum disorder to magnetic order in an s=1/2 kagome lattice: a structural and magnetic study of herbertsmithite at high pressure.

Physical review letters 108:18 (2012) 187207

Authors:

DP Kozlenko, AF Kusmartseva, EV Lukin, DA Keen, WG Marshall, MA de Vries, KV Kamenev

Abstract:

The structural and magnetic properties of deuterated herbertsmithite have been studied by means of neutron powder diffraction and magnetic susceptibility measurements in a wide range of temperatures and pressures. The experimental data demonstrate that a phase transition from the quantum-disordered spin-liquid phase to the long-range ordered antiferromagnetic phase with the Néel temperature T(N)=6  K is induced at P=2.5  GPa. The observed decrease of T(N) upon compression correlates with the anomalies in pressure behavior of Cu-O bond length and Cu-O-Cu bond angles. The reasons for the observed spin-freezing transition are discussed within the framework of the available theoretical models and the recent observation of the field-induced spin freezing.

Reverse Monte Carlo study of Cu—O bond distortions in YBa2Cu3O6.9

Zeitschrift für Kristallographie De Gruyter 227:5 (2012) 280-287

Authors:

Callum A Young, Edward Dixon, Matthew G Tucker, David A Keen, Michael A Hayward, Andrew L Goodwin