Optimising the use of large-scale tools RELAX is a KTH-driven strategic effort to give Swedish researchers access to large-scale research infrastructures worldwide. The facilities use X-rays, neutrons or muons, and provide state-of-the-art tools for advanced materials characterisation. About ReLaX Synchrotron Synchrotron X-ray facilities support various techniques in fields such as materials science, biology, chemistry, and environmental science. Synchrotron Free electron laser Free-electron lasers (FELs) are critical in structural biology, ultrafast chemistry, and quantum materials research. Free electron laser Neutron Scattering Neutron scattering facilities are widely used in condensed matter physics, energy materials, and polymer science. Neutron scattering Muon spectroscopy Muon spin rotation (µSR) sources use especially powerful for studying quantum materials and magnetic phenomena at the microscopic level. Muon spectroscopy
Optimising the use of large-scale tools RELAX is a KTH-driven strategic effort to give Swedish researchers access to large-scale research infrastructures worldwide. The facilities use X-rays, neutrons or muons, and provide state-of-the-art tools for advanced materials characterisation. About ReLaX
Synchrotron Synchrotron X-ray facilities support various techniques in fields such as materials science, biology, chemistry, and environmental science. Synchrotron
Free electron laser Free-electron lasers (FELs) are critical in structural biology, ultrafast chemistry, and quantum materials research. Free electron laser
Neutron Scattering Neutron scattering facilities are widely used in condensed matter physics, energy materials, and polymer science. Neutron scattering
Muon spectroscopy Muon spin rotation (µSR) sources use especially powerful for studying quantum materials and magnetic phenomena at the microscopic level. Muon spectroscopy
