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Welcome to the website of the E house Departments and divisions: Biomedical TechnologyComputer ScienceElectrical and Information TechnologyTechnology and Society

https://www.ehuset.lth.se/en/start - 2025-07-09

Contact

House Chairman Johan Nilssonhusprefekt [at] ehuset [dot] lth [dot] se (husprefekt[at]ehuset[dot]lth[dot]se)046-222 75 32 House Manager Per-Henrik Rasmussenph [at] ehuset [dot] lth [dot] se (ph[at]ehuset[dot]lth[dot]se)046-222 74 93070-567 16 59 Economist Elisabeth Nordströmekonom [at] ehuset [dot] lth [dot] se (ekonom[at]ehuset[dot]lth[dot]se)046-222 38 28 Postal address Husstyrelsen i E-husetLund

https://www.ehuset.lth.se/en/contact - 2025-07-09

Maps

Campus overview Text desciption of campus overview map The E building is here depicted in between the V building in the North, and the M building in the South. The E building is boxed in between the John Ericsson road in the North, Ole Romer's road East, Kommunikations road in the South, and Klas Anselm's road (which is a pedestrian and bicycle road) in the West. There are car parking spaces close

https://www.ehuset.lth.se/en/maps - 2025-07-09

About

The Board Johan Nilsson, ChairmanStefan Höst, prefekt Electro- and Information TechnologyElin A. Topp, prefekt Computer ScienceIngemar Bengtsson, office director Section of Real Estate ManagementIngrid Svensson, prefekt Biomedical TechnologyMagdalena Unosson, LTH officesElisabeth Nordström, economistMargit Billesö, secretaryJonas Lindemann, LUNARCPer-Henrik Rasmussen, House Manager2-3 student repr

https://www.ehuset.lth.se/en/about - 2025-07-09

Research

Research within NextG2Com is performed within five thematic areas, and one theme supporting demonstrators, testing and systems integration. NextG2Com page in Lund University's Research Portal. The links below will open in Lund University's Research Portal.Theme 1: 6G Communication and Compute InfrastructuresTheme 1 addresses a number of research challenges related to the next generation wireless c

https://www.nextg2com.lu.se/en/research - 2025-07-09

Partners

NextG2Com brings together 16 partners with representatives from academia, industry, regional authorities and voluntary organisations. AcconeerAlliconBoschCodeSceneEricssonGuardBotLunds universitetRegion SkåneRemotive LabsSensativeSonyTetraPaku-bloxVolvo CarsZenseactSvenska Sjöräddningssällskapet More information For more information about collaboration with NextG2Com, please contact Director Maria

https://www.nextg2com.lu.se/en/collaboration - 2025-07-09

Contact

General questions and inquiries: nextg2com [at] aid [dot] lth [dot] se (nextg2com[at]aid[dot]lth[dot]se)  DirectorMaria Kihlmaria [dot] kihl [at] eit [dot] lth [dot] se (maria[dot]kihl[at]eit[dot]lth[dot]se)Maria Kihl's profile in Lund University's Research PortalAssistant DirectorPer Runesonper [dot] runeson [at] cs [dot] lth [dot] se (per[dot]runeson[at]cs[dot]lth[dot]se)Per Runeson's profile in

https://www.nextg2com.lu.se/en/contact - 2025-07-09

Start

NextG2Com – a Vinnova Competence Center Next Generation Communication and Computational Infrastructures and Applications. A competence centre in future advanced communication systems integrating wireless communication technologies and networks, software, data and security through relevant application areas (Advanced Digitalisation). Excellent research with a systems perspective covering everything

https://www.nextg2com.lu.se/en/start - 2025-07-09

AI Lund lunch seminar: Stop wasting energy! Performance vs Power consumption in classification

27 August 2025 12:00 to 13:00 | Seminar Topic: Who decides what's trustworthy? Standards development for the EU AI ActWhen: 27 August at 12.00-13.00Where: Online - link by registrationSpeakers:Andreas Bexell, Industrial PhD student, Software Development and Environments, Lund University and EricssonSpoken language: EnglishAbstractThe use of large language models is sweeping into many fields and is

https://www.nextg2com.lu.se/en/calendar/ai-lund-lunch-seminar-stop-wasting-energy-performance-vs-power-consumption-classification - 2025-07-09

Start

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 - 2025-07-09

BSc / MSc projects

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 - 2025-07-09

Safety information for employees

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 - 2025-07-09

Jesper Wallentin

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 - 2025-07-09

Growth of metal halide perovskite nanowires for X-ray detection applications

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 - 2025-07-09

Free-standing metal halide perovskite nanowires devices and heterostructures

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 - 2025-07-09

Nanostructured X-ray detectors and X-ray beam induced current (XBIC)

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 - 2025-07-09

Nanoscale coherent X-ray diffraction

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 - 2025-07-09

X-ray imaging of ferroic domains

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 - 2025-07-09