ID16A
Synopsis
The beamline provides a high-brilliance beam focused down to nanometer size, allowing quantitative 3D characterization of the morphology and the elemental composition of specimens in their native state by combining coherent imaging techniques and X-ray fluorescence microscopy.
Status:
open
Disciplines
- Materials and Engineering
- Medicine
- Environmental Sciences
- Earth and Planetary Sciences
- Physics
- Life Sciences
Applications
- Advanced materials
- Biomedicine
- Environmental sciences
- Energy
- Nanotechnology
- Neuroscience
Techniques
- Coherent imaging
- Holography
- Imaging, phase-contrast
- Ptychography
- Scanning transmission X-ray microscopy
- Tomography
- XRF - X-ray fluorescence
Energy range
- 17.0 - 33.6 keV
Beam size
- Minimum (H x V) : 30.0 x 30.0 nm²
- Maximum (H x V) : 400.0 x 400.0 µm²
Sample environments
- Room-temperature, in vacuum
- Cryo-environment, in vacuum
Detectors
- Fluorescence 1: two seven elements silicon drift diode detectors (Vortex-ME7, 7-element Hitachi)
- Fluorescence 2: 16-element silicon drift diode detector (based on Falcon-electronics, 16-element Ardesia)
- Fluorescence 1 & 2: by default used in parallel, data are combined during post-processing.
- Imaging default: lens-coupled CMOS-camera (ESRF-customized based on a Ximea-camera, 6144x6144 pixels, 10 um physical pixel size with 10x-objective and 3x3-binning -> 3 um physical pixel size in raw data; scintillator: 20 um LSO)
- Imaging optional 1: imaging detector lens-coupled to a FReLoN F_K4320 (2048x2048 pixels, 1.1 um pixel size)
- Imaging optional 2: imaging detector lens-coupled to a FReLoN F_E230-84 (4096x4096 pixels, 1.5 um pixel size) and to a SVCam-HR16070 (4864x3232 pixels, 1.5 um pixel size)