The intermediate energy X-ray beamline at the APS

Abstract The optical design of the Intermediate Energy X-ray (IEX) beamline at the APS has been optimized to study emergent phenomena via angle-resolved photoemission spectroscopy (ARPES) and resonant soft X-ray scattering (RSXS). Driven by the scientific requirements of these two techniques the beamline consists of two separate branchlines sharing the same source, heat absorbing optics and monochromator, but each having its own refocusing optics. The ARPES branch is optimized for a very high “resolving power” and a small spot at the sample; whereas, the RSXS branch is designed for high flux and a low beam divergence at the sample. The very high “resolving power” in the ARPES branch is achieved by using a monochromator which consists of a plane mirror and a variable line spacing grating that focuses the beam at all photon energies. A flux higher than 10 10 photons/s at a “resolving power” better than 5×10 4 will be available at the sample position of the ARPES beamline on a spot size (FWHM) smaller than 21 × 4 μ m 2 (hor.×ver.) for photon energies between 250 and 1660 eV. A second grating will increase the flux by more than a factor of 10 at a “resolving power” of 10 4 . The flux expected at the RSXS branch for energies between 250 eV and 1900 eV is higher than 4×10 12  photons/s at “resolving power” around 2.5×10 3 . The expected spot in this branch is sub-millimeter and the beam divergence is less than 0.3 mrad (FWHM).