Prof Radu Coldea

Magnetic field dependence of excitations near spin-orbital quantum criticality: Data archive

University of Oxford (2017)

Authors:

Alun Biffin, Christian Ruegg, Denis Cheptiakov, Vladimir Tsurkan, Radu Coldea

Abstract:

The deposited package contains x-ray and neutron powder diffraction, susceptibility and inelastic neutron scattering data to characterize the crystal structure and magnetic dynamics in applied field in the spinel material FeSc2S4 The spinel FeSc2S4 has been proposed to realize a near-critical spin-orbital singlet (SOS) state, where entangled spin and orbital moments fluctuate in a global singlet state on the verge of spin and orbital order. Here we report powder inelastic neutron scattering measurements that observe the full bandwidth of magnetic excitations and we find that spin-orbital triplon excitations of an SOS state can capture well key aspects of the spectrum in both zero and applied magnetic fields up to 8.5 T. The observed shift of low-energy spectral weight to higher energies upon increasing applied field is naturally explained by the entangled spin-orbital character of the magnetic states, a behaviour that is in strong contrast to spin-only singlet ground state systems, where the spin gap decreases upon increasing applied field.

Quasiparticle breakdown and spin Hamiltonian of the frustrated quantum pyrochlore Yb2Ti2O7 in magnetic field: data archive

University of Oxford (2017)

Authors:

Jordan Thompson, Paul McClarty, Radu Coldea

Abstract:

The deposited package contains specific heat, magnetization and single-crystals inelastic neutron scatterig data of the frustrated pyrochlore magnet Yb2Ti2O7 in applied magnetic field.

Single crystal growth from separated educts and its application to lithium transition-metal oxides

Scientific Reports Nature Publishing Group 6 (2016) 35362

Authors:

F Freund, Stephanie C Williams, Roger Johnson, Radu Coldea, P Gegenwart, A Jesche

Abstract:

Thorough mixing of the starting materials is the first step of a crystal growth procedure. This holds true for almost any standard technique, whereas the intentional separation of educts is considered to be restricted to a very limited number of cases. Here we show that single crystals of α-Li2IrO3 can be grown from separated educts in an open crucible in air. Elemental lithium and iridium are oxidized and transported over a distance of typically one centimeter. In contrast to classical vapor transport, the process is essentially isothermal and a temperature gradient of minor importance. Single crystals grow from an exposed condensation point placed in between the educts. The method has also been applied to the growth of Li2RuO3, Li2PtO3 and β-Li2IrO3. A successful use of this simple and low cost technique for various other materials is anticipated.

Topological Triplon Modes and Bound States in a Shastry-Sutherland Magnet

(2016)

Authors:

PA McClarty, F Krüger, T Guidi, SF Parker, K Refson, AW Parker, D Prabakharan, R Coldea

Magnetic field dependence of excitations near spin-orbital quantum criticality

(2016)

Authors:

A Biffin, Ch Rüegg, J Embs, T Guidi, A Loidl, V Tsurkan, R Coldea