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Accelerator Physics

SummaryAccelerator physics deals with how particle beams are created, accelerated, steered, measured and controlled to finally be tailored to specific purposes. This is relevant for laboratories such as ESS, CERN and the MAX IV, but also for medicine or semi-conductor development.The focus of the Accelerator Physics group is on electron accelerators to produce synchrotron radiation. While our main

https://www.sljus.lu.se/research-landing-page/accelerator-physics - 2026-07-01

X-ray imaging

SummaryWe develop and use novel methods for X-ray imaging with the highest possible spatial and temporal resolution.To this end, we use a wide range of X-ray imaging methods at different synchrotrons, including MAX IV in Lund, X-ray free-electron lasers, including European XFEL, as well as lab source systems. We collaborate with many other researchers, in particular at Lund University, MAX IV, and

https://www.sljus.lu.se/research/x-ray-imaging - 2026-07-01

Publications

Find publications in the research portalIn the Lund University Research Portal you can search for:Active researchers and doctoral students within our research areasResearch outputs, for example publicationsResearch projectsResearch infrastructuresResearch unitsThe Division’s profile in Lund University’s Research Portal Finished Bachelor's and Master's projects Finished degree projects at the Divis

https://www.sljus.lu.se/publications - 2026-07-01

Contact

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 - 2026-07-01

Research

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 - 2026-07-01

Attoscience

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 - 2026-07-01

Imaging dynamics of molecules

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 - 2026-07-01

Dynamics in clusters

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 - 2026-07-01

Momentum imaging spectroscpy

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 - 2026-07-01

Thermal catalysis

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 - 2026-07-01

Model catalysts

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 - 2026-07-01

Anodization

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 - 2026-07-01

Corrosion

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 - 2026-07-01

Electro catalysis

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 - 2026-07-01

Vortex lattices

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 - 2026-07-01

Education

Master's programmesThe Division is responsible for two master's programmes in Material Science and X-ray and Neutron Science. These programmes are made in connection with the two major multidisciplinary research facilies in Lund: MAX-IV laboratory and European Spallation Source.Master's programme in Materials Science (Lund University's website)Master's programme in X-ray and Neutron Science (Lund

https://www.sljus.lu.se/education - 2026-07-01

Start

Välkommen till Institutionen för energivetenskaper Forskning Masterprogram i hållbar energiteknik – lu.se (på engelska) Examensarbete Jobba hos oss LTH:s profilområden LTH:s profilområden representerar fakultetens framstående och tvärvetenskapliga forskning, organiserad i temaområden med målet att bidra till samhällsnyttiga lösningar.Institutionen för energivetenskaper har en stark roll inom följa

https://www.energy.lth.se/sv/start - 2026-07-01

Jobba hos oss

Alla lediga tjänster publiceras på denna sida. Tyvärr kan vi inte ta emot CV:n som skickas direkt till oss; ansökningar behöver lämnas in via vårt rekryteringssystem Varbi. Prenumerera på lediga anställningarGenom en jobbprenumeration får du ett e-postmeddelande när det finns ett ledigt jobb inom ditt eller dina valda områden. Fyll i prenumerationsformuläret på rekryteringssystemet Varbis webbplat

https://www.energy.lth.se/sv/om/jobba-hos-oss - 2026-07-01

Examensarbete

I samtliga program ingår att genomföra ett examensarbete som ska visa att studenten på ett självständigt sätt kan tillämpa de kunskaper som förvärvats under utbildningen. Våra studenter har utfört examensarbeten i bland annat Nepal, Vietnam, Tanzania, Kina, Litauen, Tyskland och Island. På senare år har vi kunnat erbjuda examensarbeten i USA (Berkeley Laboratory, University of Rhode Island), Austr

https://www.energy.lth.se/sv/utbildning/examensarbete - 2026-07-01