Carbon contamination of soft X-ray beamlines: dramatic anti-reflection coating effects observed in the 1 keV photon energy region

Chauvet, C.; Polack, F.; Silly, Mathieu G.; Lagarde, Bruno; Thomasset, Muriel; Kubsky, S.; Duval, Jean-Pierre; Risterucci, Paul; Pilette, Bertrand; Yao, I.; Bergeard, Nicolas; Sirotti, Fausto

doi:10.1107/s0909049511023119

Cited by 34 publications

(27 citation statements)

References 8 publications

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“…Indeed, at a time when the beamline was strongly C-contaminated, we observed at some photon energies (especially in the 8-14 eV range) a high level of unpolarized light with S 4 coefficients reaching up to 20%. We attribute this effect to a variable phase shift between the s and p components of light, induced by the nonhomogeneous variable thickness of the C-film deposited mainly on the cryogenically cooled first mirror (Chauvet et al, 2011) which cannot be compensated for by a single phase shift of the undulator. When the same polarimetry measurement was performed by selecting a very narrow solid angle around the main axis (about 20% of the central cone) with the fourblade aperture chamber, the S 4 parameter decreased to a few % because of the much more homogeneous sampled C-film thickness coating the beamline optics.…”

Section: Polarimetrymentioning

confidence: 99%

DESIRS: a state-of-the-art VUV beamline featuring high resolution and variable polarization for spectroscopy and dichroism at SOLEIL

et al. 2012

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DESIRS is a new undulator-based VUV beamline on the 2.75 GeV storage ring SOLEIL (France) optimized for gas-phase studies of molecular and electronic structures, reactivity and polarization-dependent photodynamics on model or actual systems encountered in the universe, atmosphere and biosphere. It is equipped with two dedicated endstations: a VUV Fourier-transform spectrometer (FTS) for ultra-high-resolution absorption spectroscopy (resolving power up to 10(6)) and an electron/ion imaging coincidence spectrometer. The photon characteristics necessary to fulfill its scientific mission are: high flux in the 5-40 eV range, high spectral purity, high resolution, and variable and well calibrated polarizations. The photon source is a 10 m-long pure electromagnetic variable-polarization undulator producing light from the very near UV up to 40 eV on the fundamental emission with tailored elliptical polarization allowing fully calibrated quasi-perfect horizontal, vertical and circular polarizations, as measured with an in situ VUV polarimeter with absolute polarization rates close to unity, to be obtained at the sample location. The optical design includes a beam waist allowing the implementation of a gas filter to suppress the undulator high harmonics. This harmonic-free radiation can be steered toward the FTS for absorption experiments, or go through a highly efficient pre-focusing optical system, based on a toroidal mirror and a reflective corrector plate similar to a Schmidt plate. The synchrotron radiation then enters a 6.65 m Eagle off-plane normal-incidence monochromator equipped with four gratings with different groove densities, from 200 to 4300 lines mm(-1), allowing the flux-to-resolution trade-off to be smoothly adjusted. The measured ultimate instrumental resolving powers are 124000 (174 µeV) around 21 eV and 250000 (54 µeV) around 13 eV, while the typical measured flux is in the 10(10)-10(11) photons s(-1) range in a 1/50000 bandwidth, and 10(12)-10(13) photons s(-1) in a 1/1000 bandwidth, which is very satisfactory although slightly below optical simulations. All of these features make DESIRS a state-of-the-art VUV beamline for spectroscopy and dichroism open to a broad scientific community.

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Section: Polarimetrymentioning

confidence: 99%

DESIRS: a state-of-the-art VUV beamline featuring high resolution and variable polarization for spectroscopy and dichroism at SOLEIL

et al. 2012

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“…This process, which is certainly more relevant in low vacuum environments, might occur even in ultrahigh vacuum regimes (10 À9 -10 À10 mbar) due to the dissociation of molecules such as CO and CO 2 that are usual components of the residual gas. In fact, the growth of thin carbon layers is routinely observed on surfaces exposed to high-energy radiation as in electron microscopy [29], extreme ultraviolet lithography [3,30], or synchrotron radiation beam lines [31]. Both the graphitization of the preexisting contaminating layer and the growth of a graphitic film due to the cracking of the residual gas molecules occur with a different efficiency depending on the kinetic energy of the electrons used to scrub the surface.…”

Section: Introductionmentioning

confidence: 99%

Secondary electron yield of Cu technical surfaces: Dependence on electron irradiation

Larciprete

Grosso

Commisso

et al. 2013

Phys. Rev. ST Accel. Beams

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The secondary emission yield (SEY) properties of colaminated Cu samples for LHC beam screens are correlated to the surface chemical composition determined by x-ray photoelectron spectroscopy. The surface of the as-received samples is characterized by the presence of significant quantities of contaminating adsorbates and by the maximum of the SEY curve ( max ) being as high as 2.1. After extended electron scrubbing at kinetic energy of 10 and 500 eV, the max value drops to the ultimate values of 1.35 and 1.1, respectively. In both cases the surface oxidized phases are significantly reduced, whereas only in the sample scrubbed at 500 eV the formation of a graphitic-like C layer is observed. We find that the electron scrubbing of technical Cu surfaces can be described as occurring in two steps: the first step consists in the electron-induced desorption of weakly bound contaminants that occurs indifferently at 10 and at 500 eV and corresponds to a partial decrease of max ; the second step, activated by more energetic electrons and becoming evident at high doses, increases the number of graphitic-like C-C bonds via the dissociation of adsorbates already contaminating the as-received surface or accumulating on this surface during irradiation. Our results demonstrate how the kinetic energy of impinging electrons is a crucial parameter when conditioning the surfaces of Cu and other metals by means of electron-induced chemical processing.

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“…This non-uniform carbon layer creates serious problems in vacuum ultra violet/soft x-ray beam lines. The main issues are (i) loss of photon flux near C K-edge (≈284 eV) (ii) non uniformity in carbon layer, creates destructive interference and scattering losses (iii) non uniformity in carbon layer also varies the ratio of reflectivity of S-polarized light (R s ) to P-polarized light (R p ) [8,10]. In EUV lithography technique, the main contaminant on optics is carbon.…”

Section: Introductionmentioning

confidence: 99%

“…Generally synchrotron radiation beam lines are operated in 10 −8 -10 −10 mbar pressure, in this pressure regime the residual gases like H 2 , CO, CO 2 , CH 4 and H 2 O (in vacuum fired systems H 2 O partial pressure is very less) are mainly observed [6][7][8]. Even in ultra high vacuum conditions, the carbon atoms get deposited onto the surfaces when residual hydrocarbons dissociate during the interaction with UV/EUV photons and/or by the secondary electrons.…”

Section: Introductionmentioning

confidence: 99%

Ex-situ characterization of synchrotron radiation induced carbon contamination on LiF window

Yadav

Modi

Swami

et al. 2016

Journal of Electron Spectroscopy and Related Phenomena

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Carbon contamination of soft X-ray beamlines: dramatic anti-reflection coating effects observed in the 1 keV photon energy region

Cited by 34 publications

References 8 publications

DESIRS: a state-of-the-art VUV beamline featuring high resolution and variable polarization for spectroscopy and dichroism at SOLEIL

DESIRS: a state-of-the-art VUV beamline featuring high resolution and variable polarization for spectroscopy and dichroism at SOLEIL

Secondary electron yield of Cu technical surfaces: Dependence on electron irradiation

Ex-situ characterization of synchrotron radiation induced carbon contamination on LiF window

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