The ALBA high-stability monochromator for VUV and soft X-rays

Abstract: LOREA is ALBA’s beamline devoted to the investigation of solids electronic structure by means of Angle Resolved Photo-Emission Spectroscopy (ARPES). The beamline operates in the photon energy range 10-1000 eV with tuneable linear and circular polarizations produced by an APPLE II helical undulator. Thanks to its energy range and the high photon flux, LOREA is suitable for high resolution VUV ARPES investigations in the 10-200 eV range, while it is feasible to extend ARPES measurements to the 200-600 eV energy … Show more

“…Ternary Bi 2 Se 2 Te single crystals [47] were grown by a modified Bridgman method in a standard crystal growth system and characterized by X-ray powder diffraction (XRD) and Raman spectroscopy (see Supplemental Material (SM) [48]), showing high crystal quality and crystalline long-range order. X-ray photoemission spectroscopy (XPS) and ARPES measurements were performed with an MBS hemispherical analyzer at the LOREA beamline [49,50] in Alba Synchrotron with linearly horizontal polarized light and photon energies of hν = 100 eV and 52 eV, respectively. Er (and Dy) were sublimated with an e-beam evaporator and the deposition rates and coverages were calibrated with a quartz crystal microbalance and then correlated with the attenuation of the Bi 5d core level on the XPS spectra (see SM [48], Fig.…”

Experimental demonstration of a magnetically induced warping transition in a topological insulator mediated by rare-earth surface dopants

“…Ternary Bi 2 Se 2 Te single crystals [47] were grown by a modified Bridgman method in a standard crystal growth system and characterized by X-ray powder diffraction (XRD) and Raman spectroscopy (see Supplemental Material (SM) [48]), showing high crystal quality and crystalline long-range order. X-ray photoemission spectroscopy (XPS) and ARPES measurements were performed with an MBS hemispherical analyzer at the LOREA beamline [49,50] in Alba Synchrotron with linearly horizontal polarized light and photon energies of hν = 100 eV and 52 eV, respectively. Er (and Dy) were sublimated with an e-beam evaporator and the deposition rates and coverages were calibrated with a quartz crystal microbalance and then correlated with the attenuation of the Bi 5d core level on the XPS spectra (see SM [48], Fig.…”

Experimental demonstration of a magnetically induced warping transition in a topological insulator mediated by rare-earth surface dopants

“…Maintaining a high energy resolution requires mechanical stability and the precise control of various instruments. [49][50][51][52] Beamlines demand the development and implementation of advanced diagnosis techniques, precise focusing systems, and high-quality mirrors, which are crucial to achieve high spatial resolution and high coherence. [53,54] To enhance experimental efficiency, developing new algorithms and software tools for data analysis and visualization are required.…”

Opportunities of Advanced Physical Studies at the Hefei Advanced Light Facility

“…The obtained LEED patterns do not show any evidence of surface reconstructions originating from the RE dopants (see SM, Figure S14 in section VIII). X-ray photoemission spectroscopy (XPS) and ARPES measurements were performed on the in situ exfoliated single crystals with a MBS hemispherical analyzer at the LOREA beamline 51,52 in ALBA Synchrotron, with linear horizontal polarization and photon energies of hν = 100 and 52 eV, respectively. Er and Dy were sublimated with an e-beam evaporator.…”

Experimental Demonstration of a Magnetically Induced Warping Transition in a Topological Insulator Mediated by Rare-Earth Surface Dopants