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ADRESS

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Adress Beamline 02.jpg

ADRESS - X03MA: Advanced Resonant Spectroscopies

The ADvanced RESonant Spectroscopies (ADRESS) beamline installed in the X03MA straight section of SLS is a high-performance soft-X-ray undulator beamline operating in the energy range from 300 eV to 1.6 keV. It hosts two endstations, for Angle-Resolved Photoelectron Emission (ARPES) and Resonant Inelastic X-ray Scattering (RIXS). The scientific activity at the beamline is focused on correlated systems, topological materials, complex oxides, semiconductors and their nanostructures.

Energy range 300 - 1600 eV
Polarization circular and 0-180o variable linear polarization
Resolving power E/Δ E (1 keV) up to 33'000
Flux on sample (1 keV) >1013 ph/s/0.01%BW/400 mA
End stations Angle-Resolved Photoelectron Spectroscopy (ARPES); Resonant Inelastic X-ray Scattering (RIXS)
Spot size on sample 10 x 74 µm2 (ARPES); 4 x 52 µm2 (RIXS)

A detailed description of the ADRESS beamline can be found in J. Synchrotron Rad. 17 (2010) 631 and one of the recent presentations.

Current Highlights and News

Scientific Highlights

22 September 2020
Thorsten Schmitt (links) und Milan Radovic an ihrer Experimentierstation an der Synchrotron Lichtquelle Schweiz SLS.

Customising an electronic material

Media Releases Research Using Synchrotron Light Materials Research Matter and Material

PSI scientists have investigated a material that could be suitable for future data storage applications. They have manipulated the crystalline structure of their sample while measuring how this affects the material’s magnetic and electronic properties.

Read more
12 July 2019
Weyl fermions

Weyl fermions discovered in another class of materials

Media Releases Matter and Material Materials Research Research Using Synchrotron Light

A particular variety of particles, the so-called Weyl fermions, had previously only been detected in certain non-magnetic materials. But now researchers at PSI have experimentally proved their existence for the first time in a specific paramagnetic material.

Read more
7 May 2019
Teaserbild Schröter Niels

New material also reveals new quasiparticles

Media Releases Matter and Material Materials Research Research Using Synchrotron Light

Researchers at PSI have investigated a novel crystalline material at the Swiss Light Source SLS that exhibits electronic properties never seen before. Among other things, they were able to detect a new type of quasiparticle: so-called Rarita-Schwinger fermions.

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