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Photoelectron spectroscopy

Photoelectron spectroscopy (PES) is based on the photoelectric effect, the fact that matter irradiated by photons of sufficiently high energy emits electrons. Information about the sample is determined from the…

Coincidence methods

Please refer to the corresponding page of the Low-Density Matter group (opens in a new tab)…

Electron Spectroscopy

Photoelectron spectroscopy Photoelectron spectroscopy (PES) is based on the photoelectric effect, the fact that matter irradiated by photons of sufficiently high energy emits electrons. Information about the sample is determined…

Coincidence Spectroscopy

Multi-coincidence spectroscopy involves the simultaneous measurement of two or more charged particles produced in a reaction, thereby affording researchers the possibility to perform comprehensive investigations on molecular and cluster ionization…

ForMAX beamline: What is it and how to apply?

Explore the MAX IV laboratory, the ForMAX beamline, and how to get access to this state-of-the-art equipment. The ForMAX instrument at the MAX IV Laboratory, funded by the industrial partners…

Jupyter

Analysis and data visualization can be performed with Jupyter notebooks at MAX IV using a local JupyterHub. It allows for the use of python and matlab notebooks in a web…

LUNARC

Lund University Computing Center Introduction Lund University computing center (LUNARC) can provide computing resources for processing data from experiments carried out at MAX IV as well as for related simulations and…

Unveiling the properties of a versatile 2D material for energy storage and production applications

August 19, 2022

MXenes are a novel class of two-dimensional materials offering properties that may be useful in many different applications such as composite materials with high strength, fuel- and solar cells, 2D-based…

First Users at Balder Beamline Seek to Illuminate MXenes

August 19, 2019

A team from Linköping University in Sweden analyzed the chemical bonding of stacked nanosheet crystals of titanium carbide (Ti3C2Tx and Ti2CT) to gain knowledge about the heat-induced changes in bond…

Local Bonding Environment in 2D Transition Metal Carbides Investigated by Balder Users

July 19, 2021

2-dimensional (2D) materials for energy Materials in the form of a sheet, one or a few atomic layers thick, are called 2D materials. The most well-known 2D-material is the single…

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