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Probing CoFeNi thin films using polarised neutrons
Near-equimolar multi-component alloys, known as high entropy alloys (HEAs), possess potential for the development of new functional micromaterials. HEAs can be stabilised by... -
Surfactant Adsorption in Multi Metal Deposition Fingerprint Enhancement
Multi metal deposition (MMD) is a new latent fingerprint enhancement technique that is extremely effective on plastics, including drug wraps and explosives wrapping; it is also... -
Probing possible p-wave superconductivity in Bi/Ni bilayers
Superconductivity and ferromagnetism are perhaps the best examples of how quantum mechanics can be employed to explain macroscopic phenomena. The two states, both containing... -
Modification of an adsorbed cationic layer by anionic surfactants below the CMC
In this proposal, we request beamtime to study the unexpected behaviour of a strongly bound bilayer of the cationic surfactant didodecyldimethylammonium bromide on the anionic... -
Understanding the evolution of a magnetic soliton after nucleation 3d magneti...
The aim of this proposal is to understand the initial propagation of a sharp magnetic soliton after nucleation in tall synthetic ferrimagnetic structures (with six and eight... -
Understanding the magnetic phase diagram in capped MnSi thin films
Skyrmions are a topologically non-trivial magnetisation pattern that form in crystal structures whose broken inversion symmetry gives rise to the Dzyaloshinsky-Moriya... -
Probing the origin of the superconducting spin-valve effect
Inter-layer exchange coupling through charge and/or spin carriers is the key control mechanism for the field of nano-magnetism and is often coupled to other spintronic effects,... -
Hydrogen Embrittlement in Metals Deposited from Deep Eutectic Solvents
We propose to study the composition of metallic films of Cr, Co & Ni using specular NR measurements during electrolytic growth in deep eutectic solvent media in order to... -
Galvanostatic Dissolution of Multilayer Metal Systems in DES Studed using Eve...
Here we propose a study that will contribute to the final challenges of PhD training programme (Emma Palin). We will study the electrochemical dissolution of a bi-metallic films... -
Proving ground-state ordering in Artificial Spin-Ice systems formed by sub-10...
The main purpose of the experiment proposed here is to study the effects of thermalisation on Artificial Spin-Ice (ASI) systems formed by nanomagnets with sub-100 nm lateral... -
Universal Quantum-Critical Dynamics of a Two Dimensional Antiferromagnet
We have recently discovered a pressure-induced quantum phase transition (QPT) at 4.3 kbar in the gapped quantum magnet piperazinium hexachlorodicuprate (PHCC) by means of... -
Magnetic interactions in ferromagnetic topological insulator multilayer struc...
Topological insulators are one of the most important recent discoveries in condensed matter physics. The topological surface state can become gapped when ferromagnetic order is... -
Understanding the evolution of a magnetic soliton after nucleation 3d magneti...
The aim of this proposal is to understand the initial propagation of a sharp magnetic soliton after nucleation in tall synthetic ferrimagnetic structures (with six and eight... -
Correlations between local magnetism and spin-orbit transport physics in topo...
One of the main challenges in spintronics research is to provide a link between magnetic elements and conventional electronic circuits. A novel approach to this old problem is... -
Antimicrobial peptide-loaded nanogels and their interaction with lipid bilayers
Due to increasing antibiotic resistance, bacteria membrane disrupting antimicrobial peptides (AMPs) are of increasing interest as alternatives to classical antibiotics. AMPs are... -
Using neutron reflectivity to understand the structural basis for the rheolog...
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