Muons and magnets

Magneto-optical studies of magnetic defects in CeNiSn

PHYSICA B 216:3-4 (1996) 333-335

Authors:

J Singleton, SO Hill, A Ardavan, H Matsui, SJ Blundell, W Hayes, P Goy, E Bucher, H Hohl, G Nakamoto, AA Menovsky, T Takabatake

Abstract:

Millimetre wave magnetotransmission measurements are used to provide the first clear evidence for magnetic defects in CeNiSn. At least two defect configurations are observed, both probably involving Ce3+ ions.

Magnetic-field dependent Fermi surfaces in quasi-2D organic conductors

SURF SCI 362:1-3 (1996) 894-900

Authors:

J Singleton, AA House, N Harrison, I Deckers, SJ Blundell, JAAJ Perenboom, A Polisskii, W Hayes, F Herlach, M Kurmoo, P Day

Abstract:

We review recent studies of charge-transfer salts of the ion bis(ethylenedithio)tetrathiafulvalene which exhibit spin-density wave ground states, concentrating on techniques involving high magnetic fields and experiments carried out by the oxford group and coworkers.

Muon-spin-relaxation studies of magnetic order in heavily doped La2-xSrxNiO4+delta

PHYSICAL REVIEW B 53:22 (1996) 14725-14728

Authors:

KH Chow, PA Pattenden, SJ Blundell, W Hayes, FL Pratt, T Jestadt, MA Green, JE Millburn, MJ Rosseinsky, B Hitti, SR Dunsiger, RF Kiefl, C Chen, AJS Chowdhury

The structure of the phase transformation wave in the discrete model of a non-equilibrium phase transition

Journal of Physics: Condensed Matter 7:48 (1995) 9173-9184

Authors:

SV Demishev, TV Ischenko, SJ Blundell

Abstract:

The structure of the wave of the phase transformation in the deterministic discrete model of non-equilibrium phase transitions is investigated. In this model each of the cells forming a two-dimensional lattice can be in one of three states: stable, metastable or excited. The transition into the stable state is allowed only through an intermediate excited state. The change of the phase state of each cell is initiated by the variation of a continuous parameter, the 'temperature', taking into account the energy exchange between cells, the phase stability regions and local rules in the neighbourhood of the cell. Taking the square and hexagonal lattices as examples, it is shown that this model possesses the following fundamental property: when the lifetime of the excited states is increased beyond a certain threshold, an abrupt change of the dynamics of the phase transition occurs. The wavefront then acquires a beam-like or fractal-like structure and, in the latter case, the system of cells has a quasicontinuous frequency spectrum of white or coloured noise. The application of this model to the description of non-equilibrium (explosive) crystallization in amorphous metals and semiconductors is discussed.

Competition between magnetism and superconductivity in TmNi2B2C observed by muon-spin rotation.

Phys Rev B Condens Matter 52:6 (1995) R3864-R3867

Authors:

DW Cooke, JL Smith, SJ Blundell, KH Chow, PA Pattenden, FL Pratt, SF Cox, SR Brown, A Morrobel-Sosa, RL Lichti, LC Gupta, R Nagarajan, Z Hossain, C Mazumdar, C Godart