The Majorana Collaboration concluded operation of its Demonstrator array of enriched Ge-76 detectors.
Neutron scattering and atomic dynamics simulations reveal that complex crystals can conduct heat like a glass through diffusive quantum hopping. The revealed strategies will enable the down-tuning
Single atom impurities in graphene diffuse under e-beam irradiation. This phenomenon has been used to direct defect diffusion site-by-site with focused high-energy e-beams found in STEMs and stable defect arrays and heterostructures have been
2D semiconductors are promising for applications in optoelectronic devices, but a low exciton diffusivity is a challenge for device development.
Through computer simulations of a microscopic model for a skyrmion crystal, theoreticians discovered an unexpectedly complex spin dynamics stabilized by Dzyaloshinskii-Moriya interaction. Understanding spin dynamics is of fundamental importance to
An improved short-baseline neutrino oscillation search and energy spectrum measurement with the PROSPECT experiment at HFIR.
Materials databases generated by high-throughput computational screening, typically using density functional theory (DFT), are valuable resources for discovering new heterogeneous catalysts, though the computational cost associated with generating them
Neutron scattering experiments on a honeycomb lattice magnet revealed a unique signature of quantum magnetism. These results showed how inelastic neutron scattering can be used to detect and decode quantum magnetism and distinguish truly quantum
Researchers demonstrated that superlattices of alternating TiO2 and VO2 layers dramatically expand the tunability range of the metal–insulator transition (MIT) in the strongly correlated VO2.1 The demonstration of a wide tunability range for the e
COHERENT recently presented the full statistics analysis of the COHERENT CsI target at the Magnificent CEvNS Workshop.