A research led by the UAB has managed to emulate learning neuromorphic abilities using thin layers of cobalt oxide. The experiment, performed at the ALBA Synchrotron, is a new step towards brain-inspired computers.
A multinational research project led by the Center for Quantum Nanoscience (QNS) in Seoul, introduced a method to measure the multi-electron states of isolated magnetic atoms. Among others, data obtained at BOREAS beamline in ALBA has been key for answering the question: which orbitals do the electrons occupy?
Researchers from the Physics Department of the Universidad de Oviedo, CINN-CSIC and HZB, in collaboration with ALBA, have explored the magnetic configuration of ferrimagnetic structures often employed to build modern spintronic devices and magnetic recording media. At the MISTRAL beamline of ALBA, using vector magnetic tomography, a magnetic trilayer fabricated at Oviedo was characterized. These findings will permit to generate precise physical models describing the magnetic behaviour of this type of systems and control and exploit them for the design of spintronics and magnetic storage devices.
A study led by ICREA researchers and ALBA users Daniel Maspoch and Inhar Imaz has found out a novel approach to synthesise molecular structures that can allow material scientists to design and build a set of new materials. A crucial part of the experiment, the structural determination of the compounds, was performed at the XALOC beamline of the ALBA Synchrotron.
Last Friday, the ALBA-UAB PhD student Johannes Groen defended his thesis about the behaviour of a nanomaterial drug specifically designed to inhibit the collagen overproduction after a myocardial fibrosis event. The ALBA synchrotron light was crucial to observe the induced morphological changes in the affected cells. Groen’s results set the precedent for the development of pre-clinical studies of novel therapeutic agents.