STM
…powerful complement to an ARPES experiment. Please note that the VT-XA does not cool the tip, so the instrument will not achieve the stability or energy resolution of an LT-STM…
…powerful complement to an ARPES experiment. Please note that the VT-XA does not cool the tip, so the instrument will not achieve the stability or energy resolution of an LT-STM…
…X-rays to find innovative, sustainable ways to map and exploit metallic materials’ properties. Two examples are the exploration of hydrogen as energy carrier in applications and the quest for composites…
…work closely with industry to help advance the applied aspects of food science. Read the rest of the news story at the LINXS news site. Related articles Reflections on the Northern…
…based sample delivery systems. The sample changer can store up to 464 SPINE sample holders and automatically exchange these under cryo-conditions. The detector stage will have two area detectors, an…
…(site-specific) radiation damage. Finally… chevron_right We understand that science is rarely predictable, that sometimes unorthodox solutions are required and that there are many possibilities that we have not yet considered….
…activity in the absence of exogenous reductants.” The Abou Hachem lab worked closely with the lab of Research Director Jean-Guy Berrin at the INRAE research institute, Aix-Marseille University and several…
…Chiu was elected Fellow of The Electrochemical Society (ECS), the American Society of Mechanical Engineers (ASME), and the American Society of Thermal and Fluids Engineers (ASTFE). He is an elected…
…neutron science. Take the chance to meet with colleagues in the LINXS community! For those of you who are not familiar with how LINXS work, this is an excellent opportunity…
…to either of the two experimental stations are described in detail in: Johansson et al. 2021. The focusing optics for creating the nano-focused X-ray beam at the experimental stations are…
…per pulse on sample1% BW >2·10⁶ at 4 keV Repetition rate 10 Hz Harmonic content 1:1000 Bandwidth InSb ∆E/E≈4·10⁻⁴ (1.8-15 keV) ML ∆E/E=0.01 (1.8-15 keV) Monochomator throughput @ 5 keV…