Safety
…left hand column you will find links to pages with safety information for Users, Employees and Contractors. Studying the information is a prerequisite for having personal access to the facility….
…left hand column you will find links to pages with safety information for Users, Employees and Contractors. Studying the information is a prerequisite for having personal access to the facility….
…symmetry puzzle, host proteins may function as nano-sized controlled vehicles for the direct delivery of genetic materials, medical drugs, or DNA and RNA carriers to sites within the body. “We…
…are timely disseminated to the academic public. For information about proprietary access, mainly for industry users, see Industry. 1 Proposal submission We are glad you found MAX IV of interest…
…a long-standing record since the first meeting in Frascari, Italy in 1986. Subsequent meetings were held at sites or near the most advanced light source facilities around the world, with…
…magnet by applying an opposite magnetic field. Today the technology is commonly used in low-power devices such as computer memories, pyroelectric sensors, and piezoelectric transducers. A known device limitation is…
…mandatory secondment in the inspiring atmosphere at the world’s first 4th generation MAX IV in Lund, Sweden. On-site, you will get hands-on training in advanced synchrotron skills and first-hand experience…
…demos (2:30 hours) Lecture/Demo 1. Sample shipment overview Lecture/Demo 2. Computer environment at MAX IV Lecture/Demo 3. MXCuBE Lunch break (1 hour) Practical tutorials (running in parallel max 1 hour…
Below you find current vacancies still open for submission at MAX IV. We also advertise vacant positions on the Lund University website and through various media outlets and networks. We…
…questions from the participants. LINXS hopes to record all the webinars so that they can be available on the LINXS website (under Educational material). INFORMATION AND REGISTRATION Full information on…
…Persson, P., Kvashnina, K., and Kritzberg, E. S. Organic iron complexes enhance iron transport capacity along estuarine salinity gradients of Baltic estuaries open_in_new Biogeosciences, 17, 331–344, 2020 DOI: 10.5194/bg-17-331-2020 open_in_new…