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Superconducting ammonia-rich metal/ammonia intercalates of FeSe
The discovery of superconductivity at up to 55 K in a series of iron arsenide and selenide materials has ignited huge interest. These compounds show unique features that are... -
Spin liquid properties of the S=1/2 triangular lattice system Li2ZnMo3O8
Thermal, magnetic, neutron and muSR measurements all point towards a gapless or almost gapless spin liquid ground state for the triangular lattice spin system of S=1/2 Mo3... -
Iron-based superconductors with molecular spacer layers: probing Li diffusion...
All known iron-based superconductors comprise layers of FeAs or FeSe with some combination of group I, group II or lanthanide oxide layers, and usually some doping. To make... -
Spin dynamics of the Heisenberg triangular antiferromagnet KCrO2
The members of the series ACrO2 (where A=Li, Na, K) comprise well-decoupled, highly ideal triangular planes containing isotropic spins. While the A=Li and Na materials have been... -
Powder diffraction determination of the magnetic structure of Ba2LiOsO6
We aim to investigate the antiferromagnetic ground state of Ba2LiOsO6 using neutron powder diffraction, determining both the magnetic ordering propagation vector, and the... -
The superfluid stiffness in LiFeP
The iron-based superconductor LiFeP is related to the well-studied LiFeAs but has a smaller Tc~5 K and some important differences. LiFeP has a factor of 70 smaller Hc2 and seems... -
Layered lithium iron selenide hydroxide superconductors
FeSe is a superconductor below 8.5 K. Very recently, we have found superconductivity in a wide compositional range in a series of layered lithium iron selenide hydroxides.... -
Magnetic structure of EuZrO3
There are four parts to this experiment: (i) first we aim to study the magnetic ordering of the new compound Dy2Ge2O7 in comparison to the canonical spin ice Dy2Ti2O7 using ZF... -
Magnetic structure of EuZrO3
There are four parts to this experiment: (i) first we aim to study the magnetic ordering of the new compound Dy2Ge2O7 in comparison to the canonical spin ice Dy2Ti2O7 using ZF... -
Crystal structure and superconductivity in molecular-intercalated iron-chalco...
In 2012 we demonstrated that molecular spacer layers could be intercalated in between FeSe layers resulting in a dramatic enhancement of the critical temperature: FeSe is itself... -
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Quantum spin ice physics in Pr-based pyrochlores
In order to explore quantum spin ice physics, we wish to focus on the non-Kramers Pr-based pyrochlores with general formula Pr2M2O7 (M =Sn, Zr, Hf). There is a recent... -
Superconducting ammonia-rich metal/ammonia intercalates of FeSe
The discovery of superconductivity at up to 55 K in a series of iron arsenide and selenide materials has ignited huge interest. These compounds show unique features that are... -
Superconducting ammonia-rich metal/ammonia intercalates of FeSe
The discovery of superconductivity at up to 55 K in a series of iron arsenide and selenide materials has ignited huge interest. These compounds show unique features that are... -
Probing superconductivity, static magnetism and light ion diffusion in molecu...
In 2012 we demonstrated that molecular spacer layers could be intercalated in between FeSe layers resulting in a dramatic enhancement of the critical temperature: FeSe is itself... -
Superconducting ammonia-rich metal/ammonia intercalates of FeSe
The discovery of superconductivity at up to 55 K in a series of iron arsenide and selenide materials has ignited huge interest. These compounds show unique features that are... -
Magnetism in the inverse spinel ScMn2O4
The inverse spinel ScMn2O4 contains a mixture of Mn2+ and Mn3+ ions and shows probable ferrimagnetic order below 58 K. This proposal aims to investigate this magnetic transition... -
Magnetic ordering of moments from ionic dimers on a distorted triangular lattice
Magnetic systems generally involve magnetic moments on individual ions or atoms with coupling between them that can induce magnetic ordering. An alternative paradigm is realised... -
Field-induced Tomonaga-Luttinger Liquid phase in a spin ladder
The new molecular magnet bis(2,3-dimethylpyridinium) tetrabromocuprate (DIMPY) is a strong-leg spin ladder with a quantum critical point at 3 T separating a low-field... -
Quasi two-dimensional molecular layers separated by magnetic and non-magnetic...
One goal of our research into the nanoengineering of molecular magnets is a detailed understanding of the relationship between the structure and composition of a system and its...
