Beamline Finder
Long | Short | Full name Absteigend sortieren | Insertion Device |
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X04SA | ADDAMS | Advanced Diffraction for Material ScienceADDAMS (Advanced DiffrAction for Materials Science) is a beamline dedicated to powder diffraction and resonant X-ray diffraction within the hard X-ray range of 5 to 40 keV. The PD station operates a high-resolution powder diffractometer equipped with the novel Mythen III detector and a versatile table, using a frontal Pilatus 6M area detector. With its various attachments and in situ devices it allows investigations of samples in capillaries or bulk under a variety of conditions, including high throughput setups, ball-milling, gas pressure etc.. Time dependent phenomena can also be probed with powder diffraction using a local 22 kHz Eiger 1M. Surface diffraction is a unique tool for determining the detailed atomic structure of crystalline surfaces or the electronic and magnetic properties of materials. |
U14 |
X03MA | ADRESS | Advanced Resonant SpectroscopiesThe beamline is constructed to deliver soft-X-ray radiation and has a Resonant Inelastic X-ray Scattering (RIXS) endstation and an Angle-Resolved Photoelectron Emission (ARPES) endstation. The scientific activity at the beamline is focussed on correlated systems (transition metals and rare earths) and nanostructures. |
UE44 |
X03MA | ADRESS-SX-ARPES | Soft-X-ray Angle-Resolved Photoelectron SpectroscopyThe SX-ARPES facility is installed at the high-resolution undulator beamline ADRESS. The large probing depth and resonant photoexcitation achieved with soft X-rays allow investigations of k-resolved electronic structure of quantum materials including topological materials, buried interfaces, heterostructures and diluted impurity systems. The facility conducts extensive industrial research on materials for quantum computing. |
UE44 |
X12SA | cSAXS | Coherent Small-Angle X-Ray ScatteringThe beamline is optimized to perform small-angle X-ray scattering and high-resolution X-ray microscopy in the energy range between 4.4 and 17.9 keV. Typical techniques include 2D and 3D ptychography, a microscopy technique with spatial resolution in the tens of nanometers, 2D and 3D scanning SAXS, with spatial resolution down to 5 micron, and time-resolved SAXS. Ptychography can be additionally used to characterize X-ray optics. |
U19 |
X01DA | Debye | X-ray absorption and X-ray diffraction (XAS and XRD)The Debye beamline is currently under construction and anticipated to go into commissioning mid-2023. The beamline offers a highly automatized platform for high-throughput operando experiments tailored to the physical chemistry community. Techniques that will be available at the beamline include quick XAS, XRD and total scattering (PDF). The beamline will offer a fully tunable energy range from 4.5 to 60 keV with variable beam size from 100 um to 30 mm horizontal. The beamline is equipped with fast response ion chambers, PIPS and SDD detectors for XAS and a Pilatus 6M for XRD. The beamline offers a range of versatile sample environments and devices (capillary heating setup, gas delivery systems, potentiostat, mass spectrometer, etc), and allows users to easily adapt their operando experiments to the beamline. |
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X07DB | ISS | In-situ spectroscopyAt the In Situ Spectroscopy beamline, ambient-pressure X-ray photoelectron spectroscopy (APXPS) and X-ray absorption spectroscopy (XAS) experiments can be performed. Two experimental chambers are available and can be connected to a shared electron analyzer, allowing the investigation of solid-gas and solid-liquid interfaces. |
Bending Magnet |
X05LA | Micro-XAS | Micro X-ray Absorption SpectroscopyThe microXAS Chemical Imaging Beamline provides unique capabilities for Imaging Chemistry in Space and Time in a wide range of reactive systems at relevant spatial and temporal length scales. |
U19 |
X03DA | PEARL | PhotoEmission and Atomic Resolution LaboratoryThe PEARL (PhotoEmission and Atomic Resolution Laboratory) beamline is dedicated to the structural, chemical and electronic characterisation of surfaces and adsorbates with atomic resolution. The beamline supports angle-resolved photoelectron spectroscopy (ARPES, XPS) and diffraction (XPD) and provides in-situ surface preparation and scanning tunnelling microscopy. |
Bending Magnet |
X07MB | Phoenix | Tender X-Ray microspectroscopyPHOENIX (PHotons for the Exploration of Nature by Imaging and XAFS) is a beamline dedicated to X-ray Absorption (micro-) Spectroscopy (XAS) and imaging in the soft and tender energy range of 0.3 to 8 keV. X-ray absorption spectroscopy (XAS) can be performed in fluorescence, transmission and total electron yield mode. A von Hamos spectrometer for tender x-rays is available for emission spectroscopy with an energy resolution of 0.5 eV or better. The beamline offers a versatile sample environment (cells for liquids, liquid micro-jet system), which allows users to adapt their own in situ experiments to the beamline. This special energy range provides research opportunities in many fields, including material science, biology, energy research, environmental science, chemistry, catalysis or cultural heritage. |
UE54 |
X07DA | PolLux | Highly Versatile Scanning Transmission X-Ray MicrospectroscopePolLux allows measuring nanoscale images with contrast based on spectroscopic effects that include material parameters like elemental composition, oxidation state, magnetisation, molecular structure and molecular orientation. Special sample environments allow in situ measurements with exposure to liquids and gasses, high and low temperatures, electric and magnetic fields, and different kinds of light. Stroboscopic time-resolved imaging and 3D imaging modes are also available. Such analyses serve a wide variety of research communities. |
Bending Magnet |
X06SA | PX | Macromolecular CrystallographyX06SA (PXI) is the first macromolecular crystallography beamline at the Swiss Light Source. It is fully tunable from 5.7 to 17.5 keV with variable beam size from 5 um to 100 um, and is equipped with a flexible two-stage focusing X-ray optics system and a single–photon counting hybrid pixel area EIGER 16M (Dectris) detector. The PXI covers a wide range of MX applications from high-throughput crystallography to micro-crystallography and serial synchrotron crystallography. Room-temperaure and time-resolved MX are the latest features. The beamline team support both academic and proprietary users in on-site, remote, and fully-automated modes. |
U19 |
X10SA | PXII | Macromolecular CrystallographyThe second beamline for protein crystallography is mainly used by beamline partners with long-term contracts. The design and construction of beam line X10SA (PXII) is based on the highly successful first beam line X06SA (PXI). The beamline throughput and performance have been further enhanced with a TELL sample changer and a EIGER2 16M detector recently. As an option that can be applied for by all users, crystallographic data collection can be complemented by optical spectroscopy with an on-axis microspectrophotometer. |
U19 |
X06DA | PXIII | Macromolecular CrystallographyX06DA (PXIII) is the third protein crystallography beamline at the Swiss Light Source. It is available both to academic and proprietary users. Complementing the existing high performance undulator beamlines X06SA and X10SA, the optical concept and the experimental environment for PXIII have been optimized for simplicity. The beamline receives light from a 2.9T superbend magnet. The optical design results in a sub 100 micron x 100 micron focused beam at the sample position with a total photon flux comparable to an undulator beamline. A crystallization facility is located in the beamline with the state-of-the-art instruments for soluble and membrane protein crystallization and semi-automated fragment-based screening. |
Superbend |
X11MA | SIM | Surfaces / Interfaces MicroscopyThe permanent endstation of the SIM beamline is a Photoemission Electron microscope (PEEM) (Model: LEEM III, Elmitec GmbH). It allows to image samples using the photoelectric effect with very high spatial resolution. |
UE56 (twins) |
X09LA | SIS-COPHEE | Surface and Interface Spectroscopy - Complete Photoemission Experiment (COPHEE)The Surface and Interface Spectroscopy beamline (SIS) provides a state-of-the-art experimental setup to study the electronic and atomic structure of surfaces. The beamline has been designed for high photon energy resolution with low harmonic contamination and flexible light polarization. The COPHEE endstation is dedicated to spin- and angle-resolved photoemission spectroscopy (SARPES), which can measure all properties of photoelectrons excited from a sample surface, namely energy, momentum and spin-polarization. The station reaches temperatures down to 17 K and offers an additional free contact for biasing or gating the sample. |
UE212 (twins) |
X09LA | SIS-ULTRA | Surface and Interface Spectroscopy - Low-Temperature High-Resolution Angle-Resolved Photoemission (ULTRA)The Surface and Interface Spectroscopy beamline (SIS) provides a state-of-the-art experimental setup to study the electronic and atomic structure of surfaces. The beamline has been designed for high photon energy resolution with low harmonic contamination and flexible light polarization. ULTRA endstation is utilized for high-resolution angle-resolved photoemission spectroscopy (ARPES) at temperatures down to 4 K. |
UE212 (twins) |
X10DA | Super-XAS | X-ray absorption and emission spectroscopy (XAS and XES)The SuperXAS beamline includes a large variety of detection systems and sample environments and is thus attractive for researchers from a variety of fields: e.g. material science, catalysis, environmental science, biology, geology and archeology. Techniques that are available at the beamline include time resolved X- ray absorption fine structure (XAFS) spectroscopy (minute to the milli second range), X-ray fluorescence (XRF) and X-ray emission spectroscopy (XES). |
Superbend |
X02DA | TOMCAT | Tomographic Microscopy and Coherent Radiology ExperimentsThe beamline provides X-ray tomographic microscopy endstations for the non-destructive, high-resolution, quantitative volumetric investigations of a large variety of samples. Absorption-based and phase contrast imaging are routinely performed with isotropic voxel sizes ranging from 0.16 to 11 μm. In addition, the hard X-ray full-field microscope setup delivers a pixel size of 65 nm for microscopic samples (~75x75 μm2 field-of-view). Typical acquisition times are on the order of seconds to a few minutes and dynamic processes can be followed in 4D (3D space + time) for extended time periods with sub-second temporal resolution using the ultra-fast endstation. |
Superbend |
X04DB | VUV | Vacuum Ultraviolet RadiationResearch at the VUV beamline is focused on probing catalysis, combustion, clusters, and atmospheric chemistry by valence shell photoionization using vacuum ultraviolet light. We develop and apply double imaging photoelectron photoion coincidence spectroscopy (i2PEPICO) as a mass spectrometric and photoelectron spectroscopic tool to study reactive environments and reveal their dynamics. Key competences of the Reaction Dynamics Group include the isomer-specific detection of elusive and reactive species, such as radicals and carbenes, to determine reaction mechanisms and aid the development of predictive models in catalysis and combustion. |
Bending magnet |
X07MA | X-Treme | X-Ray Magnetic Circular Dichroism under extreme ConditionsThe X-Treme beamline is dedicated to x-ray magnetic (circular or linear) dichroism technique in the soft x-ray range. The technique is element selective and is used for example for the study of magnetic anisotropy and exchange coupling. The energy range covers the L2,3-edges (2p to 3d transition) of 3d transition metals and M4,5-edges of lanthanides (3d to 4f transition), in addition to the K-edges of light elements like O, N, F. Scientific areas of interest are: single molecule magnets, magnetic nanocrystals, self-assembly of nanomagnets on surfaces and strongly correlated electron systems. |
UE54 |
X09LA | XIL | X-ray Interference Lithography (XIL)The XIL beamline has two branches. The lithography branch provides a spatially coherent beam in the Extreme Ultraviolet (EUV) energy range (typically around 92eV) and is equipped with an interference lithography end station (EUV-IL) used for photoresist characterization and for the manufacturing of periodic nanostructures with half pitch as small as 10 nm. The metrology branch is equipped with an SG monochromator providing a coherent beam with tunable wavelength and a λ/dλ ratio of 1500 at 13.5 nm. Its end station is RESCAN, an actinic lensless microscope dedicated to EUV mask and pellicle metrology with a maximum resolution of 34 nm. |
UE212 (twins) |
1) Insertion Device
The highest brightness at a beamline can be reached by means of insertion devices ( Undulators, marked with U and Wigglers, marked with W). The number behind the letter for the device is the period length in mm. The letter E in the name of an undulator means elliptical polarization
is possible.
2) Bending magnet beamlines
This type of beamline uses the radiation which is coming from the central bending magnet of a triple bend achromat. 8 of those 12 central bends are equipped with 2 exit ports each (type A from the middle and type B from the entrance of a bend). The maximum potential for such beamlines is thus 2 * 8 = 16 bending magnet beamlines.