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Adresses Visiting addressLund UniversityDepartment of PhysicsDivision of Synchrotron Radiation ResearchProfessorsgatan 1SE-223 63 LundDelivery addressLund UniversityDepartment of PhysicsDivision of Synchrotron Radiation ResearchInstrumentmakaregränden 6SE-223 62 LundPostal addressLund UniversityDepartment of PhysicsDivision of Synchrotron Radiation ResearchBox 118SE-221 00 LundSweden Invoice addre
https://www.sljus.lu.se/contact - 2026-01-01
Ultrafast dynamics in small quantum systems Exploring the fundamental processes driven by light Catalysis and electrochemistry Catalysts and electrodes at work studied by light Ambient pressure x-ray photoelectron spectroscopy Making the next generation of 2D materials Magnetism and superconductivity Studying quantum states of matter Semiconductor nanostructures analysis Nanodevices at smallest ti
https://www.sljus.lu.se/research - 2026-01-01
Photoionization dynamics Attosecond pulses created by high harmonic generation (HHG) in gases allow us to study fundamental light-matter interaction processes with novel experimental techniques. The ultrashort light pulse leads to the creation of a wave packet that can be exploited to investigate attosecond dynamics in ionized systems. We apply interferometric techniques to access the correlated m
https://www.sljus.lu.se/research/ultrafast-dynamics-small-quantum-systems-sqs/attoscience - 2026-01-01
Imaging dynamics of small molecules Intensity distribution of emitted proton (H+) and oxygen ion (O)+ viewed by our detector when the water molecule is resonantly excited by X-rays.Atoms and molecules in electronically excited states decay via various processes which lead to bond breaking and ion formation, producing neutral and charged constituents that react with their neighbors. These processes
https://www.sljus.lu.se/research/ultrafast-dynamics-small-quantum-systems-sqs/imaging-dynamics-molecules - 2026-01-01
Cluster dynamics - a step towards complexity Photoinduced processes in complex systems can be modeled as a sequence of events initiated by the absorption of a photon. Photoionization of an atomic electron is followed by electronic relaxation which results in a migration of charge within the atom. The need to understand how this initial event leads to higher ionization states and dynamic effects in
https://www.sljus.lu.se/research/ultrafast-dynamics-small-quantum-systems-sqs/dynamics-clusters - 2026-01-01
Instrumentation: Imaging spectroscopies View of an ion spectrometer together with the particle trajectory inside (center). Image of the the particles on a detector (right).Instrumentation for carrying out multicoincidence expeirments between ionized fragments and photoelectrons is developed within the group. Design and characterization studies have been carried out for a high-resolution three-dime
https://www.sljus.lu.se/research/ultrafast-dynamics-small-quantum-systems-sqs/momentum-imaging-spectroscpy - 2026-01-01
The goal of the investigations is to gain an increased understanding of the complex catalytic reactions, for applications in the production of technical catalysts to enhance the reaction rates and improve the selectivity. Our approach is to use appropriate model systems that can be structural and chemically characterized by established surface science techniques for later operando investigations [
https://www.sljus.lu.se/research-landing-page/catalysis-and-electrochemistry/thermal-catalysis - 2026-01-01
It is next to impossible to perform operando experiments without prior detailed atom scale information on the model catalyst, due to the complexity of the gas-surface interaction and the data interpretation. We will therefore apply our standard UHV surface science techniques available to us such as Scanning Tunnelling Microscopy (STM), High Resolution Core Level Spectroscopy (HRCLS), Low-Energy El
https://www.sljus.lu.se/research-landing-page/catalysis-and-electrochemistry/model-catalysts - 2026-01-01
Aluminum is used in a vast number of everyday applications in modern society. During the last 5-10 years we have studied the electro chemical anodization (electro-oxidation) of aluminium and aluminium alloys [1], an industrial process to increase the corrosion resistance and color of aluminium, using Grazing Incidence X-ray Diffraction (GISXRD), X-Ray Reflectivity (XRR) and Grazing Incidence Small
https://www.sljus.lu.se/research-landing-page/catalysis-and-electrochemistry/anodization - 2026-01-01
Duplex Stainless Steels (DSS) are complex high-strength and corrosion resistant materials used in many applications. Nevertheless they still corrode, and in a collaboration with the group of Jinshan Pan at KTH in Stockholm, we perform in situ studies at various synchrotrons of DSS as they corrode using a combination of GISXRD, Transmission XRD, XRR, and X-Ray Fluorescence [1].Reference[1] Redefini
https://www.sljus.lu.se/research-landing-page/catalysis-and-electrochemistry/corrosion - 2026-01-01
Very recently, we have initiated a project in electro catalysis using model electrodes for a fundamental understanding of the structure-activity relation during the Oxygen and Hydrogen Evolution Reactions (OER and HER) as well as the electro oxidation of hydrocarbons. Here we combine techniques such as HESXRD, 2D-SOR, Cyclic Voltammetry (CV) and Electro Chemical XPS (ECXPS).Reference[1] An electro
https://www.sljus.lu.se/research-landing-page/catalysis-and-electrochemistry/electro-catalysis - 2026-01-01
Vortex lattices appear in Type-II superconductors when a magnetic field is applied. They can be a very sensitive probe of the underlying superconducting parameters such as the magnetic penetration depth and the superconducting coherence length, and we use this to explore a variety of superconductors.Transition metal dichalcogenidesThese materials are typically highly two-dimensional layered mater
https://www.sljus.lu.se/research/magnetism-and-superconductivity/vortex-lattices - 2026-01-01
CASE-forskaren Oskar Jonsson har tillsammans med 22 andracyklister genomfört en 120 mil lång föredragsturné om åldrande och hälsa på tandemcykel i södra Sverige i maj 2025. Målet med att nå en större publik (400+), möta lokal media och skapa intresse för Intressentpoolen - en kommunikationskanal som underlättar samspel mellan akademi och andra samhällsaktörer - har nåtts.I genomsnitt blev det cirk
https://www.case.lu.se/aktiviteter/tandemturne-varen-2025 - 2026-01-01
CASE:s forskare kommer gärna ut till din organisation eller förening för att dela med sig av sin forskning. Nedan kan du se exempel på ämnen som några av dem är experter på. Klicka på namnet så kommer mailadressen upp och du kan skicka din förfrågan.Har du allmänna frågor om vår forskning, kontakta gärna forskningskommunikatör lill [dot] eriksson [at] med [dot] lu [dot] se (Lill Eriksson). sofi
https://www.case.lu.se/samverka-med-case/boka-en-forskarforelasning - 2026-01-01
Disputerade forskareDoktorander och disputationerÖvrig personalGästforskare och gästdoktorander
https://www.case.lu.se/medarbetare - 2026-01-01
Nick ChristieForskningsingengörnick [dot] christie [at] med [dot] lu [dot] se (nick.christie@med.lu.se)Lill ErikssonForskningskommunikatör+46 73 867 61 40lill [dot] eriksson [at] med [dot] lu [dot] se (lill[dot]eriksson[at]med[dot]lu[dot]se)Steven SchmidtKoordinator, docent +46 46 222 1983steven [dot] schmidt [at] med [dot] lu [dot] se (steven[dot]schmidt[at]med[dot]lu[dot]se)Sigrid SvenssonForskn
https://www.case.lu.se/om-case/administrativ-personal - 2026-01-01
Vetenskapliga publikationer1. Zingmark, M., Björk, J., Granbom, M., Gefenaite, G., Nordeström, F., Schmidt, S. M., Rantanen, T., Slaug, B., & Iwarsson, S. (2021). Exploring associations of housing, relocation, and active and healthy ageing in Sweden: Protocol for a prospective longitudinal mixed methods study. JMIR Research Protocols, 10(9)2. Zingmark, M., Nordeström, F., & Iwarsson, S. (202
https://www.case.lu.se/reloc-age/aktuella-resultat-reloc-age - 2026-01-01
Forskare vid forskningscentrumet CASE och profilområdet Proaktivt åldrande vid Lunds universitet genomför under september till och med november 2025 en enkätstudie om hälsosammare och friskare kommuner, med fokus på den åldrande befolkningen. Studien riktar sig till dig som är 65 år eller äldre och bor i Härnösand, Emmaboda, Säffle eller Tibro kommun. De personer som valts ut får ett informationsu
https://www.case.lu.se/kommunstudie - 2026-01-01
Forskningsprojektet Samberoende nationella kritiska infrastrukturer är en del i CenCIPs verksamhet och finansieras av EU och Fonden för Inre Säkerhet (ISF) under åren 2017-2020. Projektansvarig (PI) är Jonas Johansson och forskaren Alexander Cedergren samt forskarstuderande Tove Rydén Sonesson medverkar även i projektet. MålDet övergripande projektmålet är att förbättra nuvarande kunskapsnivå krin
https://www.cencip.lu.se/forskning/isf-samberoende-nationella-kritiska-infrastrukturer - 2026-01-01
