Scientific Highlights
Spintronics: deciphering a material for future electronics
Topological insulators are the key to future spintronics technologies. EPFL scientists have unraveled how these strange materials work, overcoming one of the biggest obstacles on the way to next-generation applications.Read the full story
X-ray tomography reaches 16 nm isotropic 3D resolution
Tomographic microscopy has become an invaluable imaging method in both life and materials sciences. Oftentimes, high resolving power is required simultaneously with the ability to characterize large, statistically representative sample volumes. To this task, researchers at the Paul Scherrer Institut have established ptychographic computed tomography.
Switching of magnetic domains reveals spatially inhomogeneous superconductivity
The interplay of magnetic and charge fluctuations can lead to quantum phases with exceptional electronic properties. A case in point is magnetically-driven superconductivity, where magnetic correlations fundamentally affect the underlying symmetry and generate new physical properties. The superconducting wavefunction in most known magnetic superconductors does not break translational symmetry.
Magnetoelastic Excitations in the Pyrochlore Spin Liquid Tb2Ti2O7
Tb2Ti2O7 is often referred to as a spin liquid as it does indeed remain in a magnetically disordered phase with spin dynamics down to 0.05 K, but this itself is a surprise since there are strong expectations of magnetic order and/or a structural distortion. However, throughout the spin liquid regime there are also strong signs of magnetoelastic coupling, leading to the suggestion that both spin and structural degrees of freedom are frustrated.
Supervolcano eruptions driven by melt buoyancy in large silicic magma chambers
Super-eruptions that dwarf all historical volcanic episodes in erupted volume and environmental impact are abundant in the geological record. Such eruptions of silica-rich magmas form large calderas. The mechanisms that trigger these supereruptions are elusive because the processes occurring in conventional volcanic systems cannot simply be scaled up to the much larger magma chambers beneath super volcanoes.
Reaction Conditions of Methane-to-Methanol Conversion Affect the Structure of Active Copper Sites
Determining the structure of the active Cu sites, which are associated with the methane conversion intermediate during stepwise, low-temperature, methane-to-methanol conversion, represents an important step for the upgrade of this reaction route to a viable process. Quick X-ray absorption spectroscopy allowed us to follow the electronic and structural changes to the active Cu sites during reaction with methane and during desorption of the activated intermediate. A large fraction (41%) of the oxygen-activated CuII reacted with methane and underwent reduction to CuI.
Bulk superconductivity in undoped T'-La1.9Y0.1CuO4 probed by muon spin rotation
The Meissner effect has been directly demonstrated by depth-resolved muon spin rotation measurements in high-quality thin films of the T'-structured cup rate, T'-La1.9Y0.1CuO4, to confirm bulk superconductivity (Tc ≈ 21 K) in its undoped state. The gradual expelling of an external magnetic field is observed over a depth range of ∼ 100 nm in films with a thickness of 275(15) nm, from which the penetration depth is deduced to be 466(22) nm. Based on this result, we argue that the true ground state of the “parent” compound of the n-type cuprates is not a Mott insulator but a strongly correlated metal with colossal sensitivity to apical oxygen impurities.
Promises of cyclotron-produced 44Sc as a diagnostic match for trivalent beta - emitters: In vitro and in vivo study of a 44Sc-DOTA-folate conjugate
Research Division Biology and Chemistry (BIO), Folate Receptor Targeting Group, Head Cristina Müller. In recent years, implementation of 68Ga-radiometalated peptides for PET imaging of cancer has attracted the attention of clinicians. Herein, we propose the use of 44Sc (half-life = 3.97 h, average β+ energy [Eβ+av] = 632 keV) as a valuable alternative to 68Ga (half-life = 68 min, Eβ+av = 830 keV) for imaging and dosimetry before 177Lu-based radionuclide therapy.
Unique insight into carbon fibers on the nanoscale
The investigation of the mechanical properties of carbon fibers benefits from highly resolved three-dimensional density maps within representative volumes, but such images are not easily obtained with standard methods. Scientists from the Paul Scherrer Institut in collaboration with Honda R&D in Germany have recently visualized density distributions on the sub-micrometer scale within entire carbon fiber sections, revealing surprising graphite distributions within the fibers. This capability will prove useful for the systematic characterization of fibers, contributing to the development of light and robust materials at lower costs.
Magnetismus im Stress: Gleichzeitiger Anti- und Ferromagnetismus
Die gleichzeitige Existenz von Magnetismus und Ferroelektrizät in einem Material ist selten. Setzt sich dieser Magnetismus aus mehreren unabhängigen, magnetischen Grundzuständen zusammen, ist das ungewöhnlich. Einer schweizerisch-französischen Zusammenarbeit unter Leitung des Paul Scherrer Instituts ist es gelungen, mehrere magnetische Grundzustände in einem Material zu realisieren und detailliert zu untersuchen.