G. Trezzi scite author profile

Articles you may be interested inA von Hamos x-ray spectrometer based on a segmented-type diffraction crystal for single-shot x-ray emission spectroscopy and time-resolved resonant inelastic x-ray scattering studies Rev. Sci. Instrum. 83, 103105 (2012); 10.1063/1.4756691 High-resolution, high-transmission soft x-ray spectrometer for the study of biological samples Rev. Sci. Instrum. 80, 063103 (2009);High resolution x-ray absorption spectroscopy using a laser plasma radiation source Rev. Sci. Instrum. 75, 4606 (2004); 10.1063/1.1808071 Study of the capability of energy dispersive small angle x-ray scattering with synchrotron radiation Rev.

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Spin and energy analysis of electron beams: Coupling a polarimeter based on exchange scattering to a hemispherical analyzer

Bertacco

Marcon

Trezzi

et al. 2002

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We have coupled a high efficiency polarimeter based on exchange scattering from a magnetized target to a hemispherical analyzer. The target is a Fe(001)-p(1×1)O surface which gives rise to highly spin-dependent scattering in the 4–6 eV electron kinetic energy range. Due to the low scattering energy, the design of the transfer electron optics from the analyzer exit slit to the target is really crucial. We describe in detail the adopted solution along with the performances of the entire apparatus. For low values of the analyzer pass energy we have measured an overall efficiency of 7×10−4 with an analyzing power (Sherman function) of 0.2. As an example of application spin-resolved photoemission data from Fe(001) are reported.

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Soft X-ray Emission Spectroscopy at ESRF Beamline 26 Based on a Helical Undulator

Dallera¹,

Puppin²,

Trezzi³

et al. 1996

J Synchrotron Rad

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A new soft X-ray spectrograph for X-ray emission spectroscopy excited by synchrotron radiation is presented. The apparatus is now installed on beamline 26 at the ESRF in Grenoble. A brief description of the beamline is given and then several components of the spectrograph are covered in more detail. Results of experiments performed both with direct non-monochromated undulator radiation and with monochromated radiation are reported.

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An x-ray photoemission spectroscopy investigation of thermal activation induced changes in surface composition and chemical bonds of two gettering alloys: Zr2Fe versus Zr57V36Fe7

Sancrotti

Trezzi

Manini

1991

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We report comparative XPS (hν=1253.6 eV) core level (Zr 3d; C 1s; O 1s; Fe 2p; V 2p) results from two relevant gettering alloys: Zr2Fe and Zr57V36Fe7. The samples were studied as-received (after in-air fracturing of bulk ingots) and after different annealing treatments (up to 700 °C) performed in ultrahigh vacuum. With increasing temperature both alloys show a progressive dissolution of Zr oxides, an increase in the metallic character of the surface, the gradual loss of C based adsorbates, and a progressive increase in the surface Zr content and at the expense of the C concentration. At temperatures in the range 300–550 °C a fraction of the C atoms form metallic carbides. OH-based groups are depleted from the surface at low temperatures (200 °C), resulting in a sizable decrease of the near surface O content, while a nearly constant O concentration is found at intermediate and high temperatures. Only minor changes are observed for the near surface concentrations of Fe in Zr2Fe and Fe and V in Zr57V36Fe7 as a function of temperature. The two alloys show strong differences in the activation kinetics of these changes, with surface metallization being initiated at lower temperatures and proceeding faster in Zr57V36Fe7. Metallic carbides are found to almost completely dissolve in Zr57V36Fe7 at 600–700 °C, while they are retained even at high temperatures in Zr2Fe. The kinetic differences determined via XPS are consistent with the differences in gettering behavior of Zr2Fe and Zr57V36Fe7.

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Ultraviolet inverse photoemission spectrograph with parallel multichannel isochromat acquisition

Sancrotti

Braicovich

Chemelli

et al. 1991

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A simple and cost effective inverse photoemission spectrograph based on a spherical grating with very large optical acceptance ( f/2.8) is described. The system works in the 10–25 eV photon energy range. The dispersed photons are detected by a detector assembly based on a microchannelplate and consisting of twelve independent channels. Measurements are taken in the isochromat mode by sweeping the impinging electron energy, and the acquisition of the twelve channels is done in parallel. As an example of the apparatus performances data on polycrystalline Pt are presented.

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G. Trezzi

SAXES, a high resolution spectrometer for resonant x-ray emission in the 400–1600eV energy range

Spin and energy analysis of electron beams: Coupling a polarimeter based on exchange scattering to a hemispherical analyzer

Soft X-ray Emission Spectroscopy at ESRF Beamline 26 Based on a Helical Undulator

An x-ray photoemission spectroscopy investigation of thermal activation induced changes in surface composition and chemical bonds of two gettering alloys: Zr2Fe versus Zr57V36Fe7

Ultraviolet inverse photoemission spectrograph with parallel multichannel isochromat acquisition

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