Scientific Highlights
Continuum Excitations in a Spin Supersolid on a Triangular Lattice
Magnetic, thermodynamic, neutron diffraction and inelastic neutron scattering are used to study spin correlations in the easy-axis XXZ triangular lattice magnet K2Co(SeO3)2. Despite the presence of quasi-2D “supersolid” magnetic order, the low-energy excitation spectrum contains no sharp modes and is instead a broad and structured multiparticle continuum. Applying a weak magnetic field ...
Reentrant multiple-q magnetic order and a “spin meta-cholesteric” phase in Sr3Fe2O7
Topologically nontrivial magnetic structures such as skyrmion lattices are well known in materials lacking lattice inversion symmetry, where antisymmetric exchange interactions are allowed. Only recently, topological multi-q magnetic textures that spontaneously break the chiral symmetry, for example, three-dimensional hedgehog lattices, were discovered in centrosymmetric compounds, where they are instead driven by frustrated interactions. Here we show that ...
Ferromagnetic quantum critical point protected by nonsymmorphic symmetry in a Kondo metal
Quantum critical points (QCPs), zero-temperature phase transitions, are win- dows to fundamental quantum-mechanical phenomena associated with universal behaviour. Magnetic QCPs have been extensively investigated in the vicinity of antiferromagnetic order. However, QCPs are rare in metallic ferromagnets due to the coupling of the order parameter to electronic soft modes. Recently, antisymmetric spin-orbit coupling in noncentrosymmetric systems was suggested to protect ferromagnetic QCPs. Nonetheless, multiple centrosymmetric materials ...
Lab News
Towards first experiments on SANS-LLB
SANS-LLB instrument at SINQ close to performing first internal experiments
Book on neutron imaging
A new book on neutron imaging was recently published, written by editors and contributors from LNS. The book has a focus on applications and covers hard and soft matter.
13th Erwin Felix Lewy Bertaut Prize to Daniel Mazzone
The laureate of the thirtheenth Erwin Félix Lewy Bertaut Prize is Dr. Daniel Mazzone from the Laboratory for Neutron Scattering and Imaging (LNS), NUM division. Daniel receives the prize for his outstanding contributions in the field of quantum effects in strongly correlated electron materials, employing cutting-edge X-ray and neutron scattering techniques.