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The origin of ultra-low thermal conductivity in the thermal barrier material ...
Thermal barrier materials are used in modern turbines to enable them to run above the melting temperature of the turbine blades. However, to go to higher temperatures (and... -
Characterization of Weld Residual Strain/Stresses Distribution in Titanium We...
Titanium and its alloys have increasingly become a material of choice in high performance structures due to superior corrosion resistance and high strength to weight ratio for... -
What is the cause for the gapped mode in the `BEC' phase of DTN?
Arguably the most-famous quantum phase transition is the Bose-Einstein condensation (BEC) of magnons. It can be studied experimentally in gapped quantum paramagnets when an... -
Crystal field excitations in CeCo2Ga8
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INS study of the effect of particle size on the formation of beta-palladium h...
Finely divided, supported palladium particles are used as catalysts in many technical processes. However, there is still considerable potential to improve catalyst performance... -
Detailed Measurements of the Crystalline Electric Field of Shastry-Sutherland...
We are proposing to accurately map out the crystal electric field (CEF) levels in NdB4, ErB4 and HoB4 using MARI. These compounds belong to a family, REB4, which is a rare... -
Inelastic neutron scattering study of the antiferromagnetic triangular system...
We propose to study the temperature dependence of the inelastic response of BaCoO3. This system gives the experimental evidence of a new partially disordered antiferromagnetic... -
Understanding the ground state wavefunction in PrPtAl and YbNiSn
The proposal addreses the compounds PrPtAl and YbNiSn. Both systems are canted ferromagnets with both materials undergoing moment reorientation transitions as a function of... -
Avalanche-like hybrid-improper ferroelectric transition in SrBi2Nb2O9
Improper-ferroelectrics (FE) are the backbone to development towards room-temperature multiferroics and carry the immense technological potential for next-generation... -
Inelastic neutron scattering study on double perovskite Sr2TIrO6 (T = Ca, Sc,...
Recent observation of AFM transition at 1.3 K in Sr2YIrO6 with Ir in 5+ valence state has motivated research interests in the double perovskite Sr2TIrO6. Usually Ir5+ with a... -
The application of INS to examine high specification Fe Fischer-Tropsch catal...
Over the last 4-5 years the research team have been developing INS methodology that can be applied to investigate Fe Fischer-Tropsch (F-T) catalysts. The first stage of that... -
Lattice dynamics in the giant barocaloric Ammonium Sulfate
Given the challenges in providing efficient and non-harmful refrigeration, it is timely to study barocaloric systems, which offer cooling power via the application of pressure,... -
Can we use the H-H stretch of adsorbed dihydrogen to characterise materials?
The use of the J 0-to-1 rotational transition of dihydrogen has been extensively used to characterise the state if hydrogen in and on materials. The disadvantage of studying the... -
Magnetic excitations in AgCrSe2
AgCrSe2 has emerged as a material of great interest due it its good thermoelectric performance. It also has an interesting cycloidal magnetic structure. While studying the... -
How does oxidative damage change peptide membrane insertion?
The insertion of peptides and proteins into cell membranes is crucial for the functioning of cells, and also for the functioning of a variety of antibacterial reagents. Cells... -
The magnon density of states in NiPS3
NiPS3 is an example of a low-dimensional magnetic system. It is potentially a 'model' magnet, meaning that it might be a good material to search for new phenomena that have been... -
Low-dimensional glasses: Effect of occupational site disorder in the excess o...
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Probing Chemical Order in FeNi Alloys
A promising candidate for low-cost, high performing permanent magnet materials is the chemically ordered L10 FeNi compound. This phase is only observed naturally in select... -
Magnetic field controlled quantum criticality in La2-xSrxCuO4
The application of a magnetic field offers a unique way to control a quantum critical point in some systems. For underdoped high temperature cuprate superconductors (HTS),... -
The Evolution of the Antiferromagnetic Order with Hole Doping of La2-xSrxCoO4.
Many believe that the magnetic excitations of cuprate high temperature superconductors play an important role in the material's superconductivity. Understanding the magnetic...
