Muons and magnets

Low-Temperature Spin Diffusion in a Highly Ideal S=1/2 Heisenberg Antiferromagnetic Chain Studied by Muon Spin Relaxation

Physical Review Letters 96 (2006) 247203 4pp

Authors:

SJ Blundell, C Baines, F L Pratt, T Lancaster

Effect of Irradiation-Induced Disorder on the Conductivity and Critical Temperature of the Organic Superconductor k-(BEDT-TTF)2Cu(SCN)2

Physical Review Letters 96 (2006) 177002 4pp

Authors:

SJ Blundell, A. Ardavan, J.F. Analytis, R.L. Owen

Muon-spin relaxation study of the spin-(1)(2) molecular chain compound Cu(HCO2)(2)(C4H4N2)

Physical Review B: Condensed Matter and Materials Physics 73 (2006) 172403 (4 pages)

Authors:

T Lancaster, S. J. Blundell, M. L. Brooks, P. J. Baker

A mu SR study of the metamagnetic phase transition in the electron-transfer salt [FeCp2*][TCNQ]

PHYSICA B 374 (2006) 114-117

Authors:

SJ Blundell, T Lancaster, ML Brooks, FL Pratt, ML Taliaferro, JS Miller

Abstract:

We have used muon-spin rotation (mu SR) to study the metamagnetic transition in [FeCp2*][TCNQ] where Cp* = C5Me5 and TCNQ is 7,7,8,8-tetracyano-p-quinodimethane. This electron-transfer salt contains parallel chains of alternating [FeCp2*](+) cations and [TCNQ](-) anions. Our zero-field mu SR data show the 2.5 K transition and show that a static, but disordered, internal field distribution develops below this. High-transverse-field mu SR has also been used to study the metamagnetic transition and the data illustrate how the internal field distribution changes through this transition. (c) 2005 Elsevier B.V. All rights reserved.

Ferromagnetism with zero intrinsic magnetization: mu SR on Gd-doped SmAl2

PHYSICA B 374 (2006) 34-39

Authors:

FL Pratt, SJ Blundell, T Lancaster, ML Brooks, CA Steer, H Adachi

Abstract:

A ferromagnetic system which has an external magnetization that is intrinsically zero is an interesting and unusual type of magnet. The rare earth ion Sm3+ provides a basis for building such a system, having the property that its spin and orbital moments are both close to 4 mu(B). Antiparallel coupling of these moments by spin-orbit interaction leads to a very small resultant moment that is either parallel or antiparallel to the spin moment of the ion, depending on the exact balance. By doping Gd into the ferromagnet SmAl2 (T-c = 125 K) an experimental realization of a zero magnetization ferromagnet can be produced, with exactly zero magnetization occurring at temperature T-comp. Zero-field muon spin relaxation measurements have been made on single crystal and polycrystalline samples of the Sm1-xGdxAl2 system and for all the compositions studied an extremely sharp transition into the ferromagnetic state was observed. Muon spin precession was seen in the magnetically ordered state of the Sm compounds and anomalies in the relaxation were observed around T-comp, reflecting the unusual nature of this magnetic state. (c) 2005 Elsevier B.V. All rights reserved.