Malmö Art Academy offers artistic education at bachelor and master level for aspiring artists. We also offer a research program for established artists and curators. The teaching of fine art is not divided into artistic specializations, but as a student you can choose to move freely between different forms of artistic expression or immerse yourself in a particular form. During your studies, you ha

https://www.khm.lu.se/en/education/study-khm - 2025-07-19

Sven Augustijnen Jürgen Bock Jacob Korczynski Yael Bartana Bouchra Khalili Emily Wardill

https://www.khm.lu.se/en/research-0/doctural-students - 2025-07-19

Iris [A Fragment] (2018). Video still. Malmö Art Academy conducts research and postgraduate education in fine arts. All teachers at the academy have research as part of their employment to ensure the development of their research areas and teaching methods. Doctoral theses Research portal

https://www.khm.lu.se/en/about-our-research - 2025-07-19

Malmö Art Academy is an international art school at Lund University. We educate students in fine art at bachelor and master level. The education is both practical and theoretical and focuses entirely on each student's own development of their artistic practice. Malmö Art Academy is a state-financed school with approximately 80 students, and has been offering higher education in fine arts since 199

https://www.khm.lu.se/en/about-us/organisation-and-history - 2025-07-19

Please use this form to apply for research initiation grants. Only Lund University employees are eligible to apply.Read more here about the requirements.The deadline for this round of applications is April 28, 2025. Status message Sorry...This form is closed to new submissions. Leave this field blank

https://www.cfe.lu.se/en/form/application-form-research-grants - 2025-07-19

Please use this form to apply for grants for seminars, symposia, and lectures on European themes.You can read more here about the requirements.The deadline for this round of applications is April 28, 2025. Status message Sorry...This form is closed to new submissions. Leave this field blank

https://www.cfe.lu.se/en/form/application-form-seminar-grants - 2025-07-19

The elections to Swedish parliament also represent EU elections. The parties that form government will, each week, vote on various proposals in the EU that later turn into Swedish laws. In this project on the EU in the parliamentary elections, we have investigated with how much ease a voter can figure out which party best suits their own opinions about the EU. Read more about the project on our Sw

https://www.cfe.lu.se/en/activities/eu-parliamentary-elections - 2025-07-19

On this page students can apply for travel grants for thesis work. The application period for spring term 2025 is now open. Deadline for applications is January 31, 2025. Read more about the requirements here. Status message Sorry...This form is closed to new submissions. Leave this field blank

https://www.cfe.lu.se/en/form/application-form-travel-grants - 2025-07-19

Status message Sorry...This form is closed to new submissions. Leave this field blank

https://www.cfe.lu.se/en/form/registration-challenges-and-priorities-council-eu - 2025-07-19

Welcome to the Division of Synchrotron Radiation Research The Division of Synchrotron Radiation Physics has about 60 employees and covers a wide range of research topics that are interlinked with each other as well as to research groups in Lund, Sweden, and internationally. We perform experimental studies of physical, chemical, structural, and dynamical properties of materials, especially at surfa

https://www.sljus.lu.se/start - 2025-07-19

Do your project at the Division of Synchrotron Radiation Research! Bachelor's and Master's projects are available in all research fields of the Division. Please feel free to contact the corresponding project leader or any other member of the group for more information. A large part of our research is performed at the MAX IV Laboratory. In addition, we are using several international synchrotron fa

https://www.sljus.lu.se/education/bsc-msc-projects - 2025-07-19

Safety requires everyone's responsibility and awareness. Safety work at the Division of Synchrotron Radiation Research is regulated at three levels:General RegulationsThe "General Regulations" are relevant for everyone working at the division. Specific Safety RegulationsThe "Specific Safety Regulations" are relevant for everyone working in the laboratories of the division, i.e. the Scanning Probe

https://www.sljus.lu.se/safety-information-employees - 2025-07-19

Our research concerns the intersection of nanoscience and X-ray science. We use X-rays to investigate nanostructured devices, and we develop nanostructures as X-ray detectors. We have a strong collaboration with the Nanomax beamline at MAX IV, and we also visit other synchrotrons for experiments. Most of the projects also involve colleagues in NanoLund, and we are frequent users of the Lund Nano L

https://www.sljus.lu.se/jesper-wallentin-0 - 2025-07-19

CsPbBr3 metal halide perovskite nanowire X-ray detectors. A) Cross-sectional SEM and B) X-ray image of test pattern with 2 micron lines [Zhang 2022]. C) 3D X-ray microscopy of grains [Dierks 2022]. Metal halide perovskites are most famous for their rapid development in solar cells, but they are also promising materials for X-ray scintillation detectors. We are synthesizing CsPbBr3 nanowire arrays

https://www.sljus.lu.se/growth-metal-halide-perovskite-nanowires-x-ray-detection-applications - 2025-07-19

Freestanding CsPbBr3 nanowires. Left: Cross-sectional SEM of as-grown nanowires. Middle: Cross-sectional optical microscopy (not false colored) of blue-green CsPbCl1.1Br1.9-CsPbBr3 heterostructured nanowires [Zhang 2022]. Single nanowire transistor [Lamers 2022]. We have discovered a method to grow free-standing vertically aligned CsPbBr3 metal halide perovskites [Zhang 2022]. Part of the nanowire

https://www.sljus.lu.se/free-standing-metal-halide-perovskite-nanowires-devices-and-heterostructures - 2025-07-19

Left: The nanofocus at the NanoMax beamline, MAX IV, Lund [Chayanun 2020], imaged with a single nanowire. Right: X-ray beam induced current (XBIC) in a single nanowire [Chayanun 2019]. Traditional X-ray detectors use bulk crystals, which limits their resolution. In this project, financed by an ERC Starting Grant, we are developing vertical arrays of nanowires as high-resolution X-ray detectors. We

https://www.sljus.lu.se/nanostructured-x-ray-detectors-and-x-ray-beam-induced-current-xbic - 2025-07-19

3D strain simulation and measurement of axially heterostructured nanowire [Hammarberg 2020]. X-ray diffraction can be used to study strain, piezoelectricity and heating in crystalline samples. Modern X-ray optics can reach well below 100 nm focus size, and with coherent phase retrieval methods the spatial resolution can reach around 10 nm. Hard X-rays can penetrate through thick samples, allowing

https://www.sljus.lu.se/nanoscale-coherent-x-ray-diffraction - 2025-07-19

Imaging of ferroelastic domain dynamics in a CsPbBr3 perovskite nanowire as the temperature is ramped across a phase transition [Marcal 2020]. The Bragg peak and the domain pattern change as the temperature crosses the orthorhombic to tetragonal phase transition at 80C.   3D reconstruction of two ferroelastic domains in a CsPbBr3 nanoparticle [Dzhigaev 2021]. We have recently shown that it is poss

https://www.sljus.lu.se/x-ray-imaging-ferroic-domains - 2025-07-19

In this project, we have built a phase contrast X-ray tomograph based on a microfocus Cu source. Traditional X-ray imaging is based on absorption contrast, which has poor contrast for small and weakly absorbing samples. Much better contrast can be achieved using phase contrast [Dierks 2020]. The system is based on a microfocus X-ray source with a Cu target, a high-resolution detector and a high-pr

https://www.sljus.lu.se/phase-contrast-tomography - 2025-07-19

SummaryLight is indisputably at the origin of life on earth, driving all photo-chemical reactions in atmosphere, biological systems, and “man-made" energy related materials. On the atomic scale level, we can describe these photo-chemical reactions, through a multitude of elementary processes occurring on the ultrafast time scale (from sub femtosecond to picosecond) where the initial energy/light h

https://www.sljus.lu.se/research-landing-page/ultrafast-dynamics-small-quantum-systems-sqs - 2025-07-19