Muons and magnets

Spectroscopy methods for molecular nanomagnets

Structure and Bonding 164 (2014) 231-292

Authors:

ML Baker, SJ Blundell, N Domingo, S Hill

Abstract:

This chapter provides a detailed overview of some of the primary spectroscopic methods that have contributed to the current understanding of molecular nanomagnets (MNs). These include: electron paramagnetic resonance (EPR); optical spectroscopy, including magnetic and X-ray magnetic circular dichroism (MCD/XMCD); inelastic neutron scattering (INS); and muon spin rotation (μ +SR). For each technique, a historical survey of the most important discoveries is provided, up to and including the most recent developments. Each section gives an introduction to the theoretical principles underpinning the techniques, as well as a description of experimental requirements and protocols. A common theme among the described spectroscopies is the fact that state-of-the-art measurements typically have to be performed at major research facilities such as synchrotrons (terahertz EPR and XMCD), high magnetic field laboratories (EPR), and accelerator facilities or reactors (INS and μ +SR). Details of such facilities are given where appropriate. Forefront issues that are addressed in the chapter include: the fundamental properties of both mono- and poly-nuclear single-molecule magnets (SMMs); the deployment of MNs in quantum information processing applications; the addressing of individual magnetic molecules on surfaces or in devices; the probing of spin dynamics in MNs using EPR, INS, and μ +SR; and studies of long-range magnetic ordering in MN crystals. An extensive list of references is provided. The chapter is intended for physicists, chemists, and materials scientists, particularly junior researchers who are just starting work in the field.

Strontium vanadium oxide-hydrides: "square-planar" two-electron phases.

Angewandte Chemie (International ed. in English) 53:29 (2014) 7556-7559

Authors:

Fabio Denis Romero, Alice Leach, Johannes S Möller, Francesca Foronda, Stephen J Blundell, Michael A Hayward

Abstract:

A series of strontium vanadium oxide-hydride phases prepared by utilizing a low-temperature synthesis strategy in which oxide ions in Sr(n+1)V(n)O(3n+1) (n=∞, 1, 2) phases are topochemically replaced by hydride ions to form SrVO2H, Sr2VO3H, and Sr3V2O5H2, respectively. These new phases contain sheets or chains of apex-linked V(3+)O4 squares stacked with SrH layers/chains, such that the n=∞ member, SrVO2H, can be considered to be analogous to "infinite-layer" phases, such as Sr(1-x)Ca(x)CuO2 (the parent phase of the high-T(c) cuprate superconductors), but with a d(2) electron count. All three oxide-hydride phases exhibit strong antiferromagnetic coupling, with SrVO2H exhibiting an antiferromagnetic ordering temperature, T(N)>300 K. The strong antiferromagnetic couplings are surprising given they appear to arise from π-type magnetic exchange.

Spin diffusion in the low-dimensional molecular quantum Heisenberg antiferromagnet Cu(pyz)(NO$_{3}$)$_{2}$ detected with implanted muons

(2014)

Authors:

F Xiao, JS Möller, T Lancaster, RC Williams, FL Pratt, SJ Blundell, D Ceresoli, AM Barton, JL Manson

Controlling Magnetic Order and Quantum Disorder in Molecule-Based Magnets

Physical Review Letters American Physical Society (APS) 112:20 (2014) 207201

Authors:

T Lancaster, PA Goddard, SJ Blundell, FR Foronda, S Ghannadzadeh, JS Möller, PJ Baker, FL Pratt, C Baines, L Huang, J Wosnitza, RD McDonald, KA Modic, J Singleton, CV Topping, TAW Beale, F Xiao, JA Schlueter, AM Barton, RD Cabrera, KE Carreiro, HE Tran, JL Manson

Quantum Field Theory for the Gifted Amateur

Oxford University Press (OUP), 2014

Authors:

Tom Lancaster, Stephen J Blundell