BEGIN:VCALENDAR VERSION:2.0 PRODID:https://murmitoyen.com/events/vanille/udem/ X-WR-TIMEZONE:America/Montreal BEGIN:VEVENT UID:69e0ece5c00eb DTSTAMP:20260416T100629 DTSTART:20130722T113000 SEQUENCE:0 TRANSP:OPAQUE DTEND:20130722T123000 URL:https://murmitoyen.com/events/vanille/udem/detail/257010 LOCATION:Université de Montréal - Pavillon Roger-Gaudry\, 2900\, chemin d e la Tour\, Montréal\, QC\, Canada\, H3T 1J6 SUMMARY:Materials research at the Dresden High Magnetic Field Laboratory DESCRIPTION:Jochen Wosnitza\, Dresden High Magnetic Field Laboratory\, Helm holtz Zentrum Dresden Rossendorfl\, Rossendorf\, Germany In this talk\, a brief overview on the experimental infrastructure and the in-house resear ch at the Dresden High Magnetic Field Laboratory (Hochfeld-Magnetlabor Dre sden\, HLD) will be given. High magnetic fields are one of the most powerf ul tools available to scientists for the study\, modification\, and contro l of the state of matter. The application of magnetic fields\, therefore\, has become a commonly used instrument in condensed-matter physics and the demand for the highest possible magnetic-field strengths increases contin uously. At the HLD\, that has opened its doors for external users in 2007\ , pulsed magnetic fields beyond 90 T have been reached. The laboratory rec ently has achieved a record field of 94.2 T having the ambitious goal of r eaching 100 T on a 10 ms timescale. In the pulsed magnets\, a variety of e xperimental methods are available allowing to measure e.g. electrical tran sport\, magnetization\, magnetostriction\, ultrasound\, ESR\, and even NMR with very high resolution. As a unique feature\, a free-electron-laser fa cility next door allows high-brilliance radiation to be fed into the pulse d-field cells of the HLD\, thus making possible high-field magneto-optical experiments in the range from 3 to 250 µm. In-house research of the HLD focuses on electronic properties of strongly correlated materials at high magnetic fields. This includes the investigation of novel magnetic materi als\, the determination of Fermi surfaces of novel superconductors and hea vy-fermion systems by means of measurements of magnetic quantum oscillatio ns as well as the recently found evidence for the existence of the Fulde ‑Ferrell‑Larkin‑Ovchinnikov state in an organic superconductor.  S ite web du groupe de Prof. WosnitzaCette conférence est présentée par le RQMP Versant Nord du Département de physique de l'Université de Mont réal et le Département de génie physique de Polytechnique Montréal. END:VEVENT BEGIN:VTIMEZONE TZID:America/Montreal X-LIC-LOCATION:America/Montreal END:VTIMEZONE END:VCALENDAR