ID20

Synopsis

ID20 is dedicated to the study of electronic and magnetic excitations in matter using resonant and non-resonant inelastic X-ray scattering as well as emission spectroscopy. The main scientific activities comprise the investigation of strongly correlated electron systems, functional materials, and the study of matter at extreme conditions.
Status:  open

Disciplines

  • Physics
  • Chemistry
  • Materials and Engineering
  • Earth and Planetary Sciences

Applications

  • Physics (correlated electron systems, liquids)
  • Chemistry (energy storage materials, batteries)
  • Earth and planetary science

Techniques

  • Magnetic diffraction
  • REXS - resonant elastic X-ray scattering
  • RIXS - resonant inelastic X-ray scattering
  • RXES - resonant X-ray emission spectroscopy
  • XES - X-ray emission spectroscopy
  • IXS - inelastic X-ray scattering
  • XAS - X-ray absorption spectroscopy
  • XRS - X-ray Raman scattering

Energy range

  • 4.0 - 20.0  keV

Beam size

  • Minimum (H x V) : 18.0 x 9.0  µm²
  • Maximum (H x V) : 400.0 x 400.0  µm²

Sample environments

  • Dynaflow He exchange gas cryostat (3K – 300 K)
  • Miniflow He cryostat (3 – 300 K) – from loan pool
  • Cryostream (80 – 300 K) – from loan pool
  • Heat blower (300 – 800 K) – from loan pool
  • High pressure cells (up 1 Mbar and beyond)

Detectors

  • Maxipix 2D detectors
  • 5-element Avalanche Photodiode array
  • MAR CCD (from loan pool)
  • Pilatus 300K-W (from loan pool)

Technical details

The beamline features two spectrometers: (1) One 1m/2m RIXS spectrometer equipped with five spherical crystal analysers, operating in the horizontal or vertical scattering plane. The overall energy resolution depends on the chosen monochromatisation scheme and the crystal analyser reflection, and ranges from 25 meV to 2 eV. (2) One 1m spectrometer for non-resonant IXS studies with 72 crystal analysers, arranged in six independent modules, and covering both horizontal and vertical scattering planes. The overall energy resolution ranges from 0.4 to 2 eV.

Experimental observables are the following: magnons, d-d and charge transfer excitations, plasmons, core- and valence emission lines, mono-, dipolar- and multipolar transitions from core levels.