Advanced Photon Source (APS), Argonne National Laboratory
SEES supports the following beamlines and techniques for Earth and Environmental synchrotron science. Techniques include Nuclear Resonant Inelastic X-ray Scattering (NRIXS), Diamond Anvil Cell (DAC), Large Volume Press (LVP), X-ray Diffraction (XRD), Crystal Truncation Rod Scattering ( CTR), Computed X-ray Microtomography (CMT), high PT Brillouin Spectroscopy, X-ray Standing Wave Methods (XSW), Grazing Incidence XRF (GIXRF), X-ray Absorption Spectroscopy (XAS), PE cell, high PT, and X-ray Micro-Probe (XRM).
| Beamline | X-ray Source, Energy Range, Beam Size | Techniques |
| 3, 30 | ID, mono, 14-40 keV, 10 μm | NRIXS, DAC |
| 6-BM | BM, white, 10 mm | LVP |
| 13-BM-C | BM, mono, 15 & 29 keV, 15 to 300 μm | XRD, DAC, CTR |
| 13-BM-D | BM, white, mono, 6-110 keV, 12 μm to 20 mm | XRD, DAC, LVP, CMT, high PT Brillouin spectroscopy |
| 13-ID-C | Mono, 5-80 keV, 30 μm to 1 mm (1 μm after APS-U) | XRD, CTR, XSW, GIXRF, XAS, PE cell, coherent scattering |
| 13-ID-D | ID, white, mono, 14-80 keV, 3 μm to 10 μm (0.3 μm after APS-U) | XRD, DAC, LVP, high PT |
| 13-ID-E | ID, mono, 2.4-28 keV, 1μm (0.3 μm after APS-U) | XRM, XAS, XRD |
Other facilities
GSECARS – SEM
GSECARS – Laser Lab
GSECARS – Gas Loading System