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Discovery paves the way to quantitatively investigate the interplay among magnetism, superconductivity and disorder in high temperature superconductors.
Carbon nanotubes insert into artificial and active cell membranes, reproducing major features of biological channels.
New studies explain the transition, providing a quantitative picture of a 50-year-old mystery.
Tracking electronic motion in a graphene-like bulk material shows fast electrons in all dimensions.
Discovery demonstrates how metamaterials may be used in non-invasive material imaging and sensing, and terahertz information technologies.
Magnetic property changes by several hundred percent over a narrow temperature range.
![Crystal structure of the parent compound of a calcium-strontium-based cuprate superconductor [(Ca/Sr)2CuO3]](/-/media/bes/images/highlights/2015/02/figure-1-large.jpg?la=en&h=640&w=482&hash=FEBD032F1B2FB9804669C29E7DAD057E "figure-1-large.jpg")
New theoretical techniques predict experimental observations in superconducting materials.
Scientists uncover the microscopic origin of a magnetic phase in iron-based superconductors.
Combining computer simulations with laboratory measurements provides insights on molecular-level flexibility.
Coexistence of two states of matter that normally avoid one another is revealed by inelastic neutron scattering experiments.
Atomic-scale details of electron distribution reveal a novel mechanism for current to flow without energy loss.
Thin widths change a high-performance electrical conductor into a semiconductor.
