Your search keyword '"Menk, Ralf H."' showing total 8 results

1. Development and validation of a simulation tool for K-edge Subtraction imaging with polychromatic spectra and X-ray photon counting detectors

Author

Di Trapani, Vittorio, Oliva, Piernicola, Arfelli, Fulvia, Brombal, Luca, Menk, Ralf H., and Delogu, Pasquale

Published

2023

2. Trace‐element XAFS sensitivity: a stress test for a new XRF multi‐detector.

Author

Carlomagno, Ilaria, Antonelli, Matias, Aquilanti, Giuliana, Bellutti, Pierluigi, Bertuccio, Giuseppe, Borghi, Giacomo, Cautero, Giuseppe, Cirrincione, Daniela, de Giudici, Giovanni, Ficorella, Francesco, Gandola, Massimo, Giuressi, Dario, Medas, Daniela, Mele, Filippo, Menk, Ralf H., Olivi, Luca, Orzan, Giulio, Picciotto, Antonino, Podda, Francesca, and Rachevski, Alexandre

Subjects

CHEMICAL speciation, X-ray fluorescence, X-ray absorption, DILUTE alloys, PHOTON flux, ECOSYSTEM health

Abstract

X‐ray absorption fine‐structure (XAFS) spectroscopy can assess the chemical speciation of the elements providing their coordination and oxidation state, information generally hidden to other techniques. In the case of trace elements, achieving a good quality XAFS signal poses several challenges, as it requires high photon flux, counting statistics and detector linearity. Here, a new multi‐element X‐ray fluorescence detector is presented, specifically designed to probe the chemical speciation of trace 3d elements down to the p.p.m. range. The potentialities of the detector are presented through a case study: the speciation of ultra‐diluted elements (Fe, Mn and Cr) in geological rocks from a calcareous formation related to the dispersal processes from Ontong (Java) volcanism (mid‐Cretaceous). Trace‐elements speciation is crucial in evaluating the impact of geogenic and anthropogenic harmful metals on the environment, and to evaluate the risks to human health and ecosystems. These results show that the new detector is suitable for collecting spectra of 3d elements in trace amounts in a calcareous matrix. The data quality is high enough that quantitative data analysis could be performed to determine their chemical speciation. [ABSTRACT FROM AUTHOR]

Published

2021

3. Characterization of the Percival detector with soft X‐rays.

Author

Marras, Alessandro, Correa, Jonathan, Lange, Sabine, Vardanyan, Vahagn, Gerhardt, Tim, Kuhn, Manuela, Krivan, Frantisek, Shevyakov, Igor, Zimmer, Manfred, Hoesch, Moritz, Bagschik, Kai, Scholz, Frank, Guerrini, Nicola, Marsh, Ben, Sedgwick, Iain, Cautero, Giuseppe, Giuressi, Dario, Iztok, Gregori, Menk, Ralf H., and Scarcia, Martin

Subjects

DETECTORS, SOFT X rays, X-rays, PHOTONS

Abstract

In this paper the back‐side‐illuminated Percival 2‐Megapixel (P2M) detector is presented, along with its characterization by means of optical and X‐ray photons. For the first time, the response of the system to soft X‐rays (250 eV to 1 keV) is presented. The main performance parameters of the first detector are measured, assessing the capabilities in terms of noise, dynamic range and single‐photon discrimination capability. Present limitations and coming improvements are discussed. [ABSTRACT FROM AUTHOR]

Published

2021

4. Fast beam monitor diamond‐based devices for VUV and X‐ray synchrotron radiation applications.

Author

Di Fraia, Michele, De Sio, Antonio, Antonelli, Matias, Nesti, Renzo, Panella, Dario, Menk, Ralf H., Cautero, Giuseppe, Coreno, Marcello, Catone, Daniele, Zema, Nicola, Callegari, Carlo, and Pace, Emanuele

Subjects

SYNCHROTRON radiation, PICOSECOND pulses, X-rays

Abstract

The improved performance of third‐generation light sources and the advent of next‐generation synchrotron radiation facilities require the use of extremely precise monitoring of the main photon‐beam parameters, such as position, absolute and relative intensity, and temporal structure. These parameters, and associated real‐time feedbacks, are fundamental at the beamline control level and at the machine control level, to improve the stability of the photon beams and to provide bunch‐to‐bunch quantitative information. Fast response time, high radiation hardness and visible–blind response are main features of photon‐beam monitors for VUV and X‐ray synchrotron radiation beamlines; hence diamond‐based detectors are outstanding candidates. Here, results are presented of an extensive measurement campaign aiming at optimizing the capabilities of diamond detectors to discern time structures below the 100 ps timescale. A custom‐built device has been fabricated and tested at the Italian Synchrotron Radiation Laboratory Elettra in Trieste. The results obtained show that diamond is an excellent material for ultra‐fast photon pulses with picosecond time resolution; finally the possibilities for application at free‐electron laser sources are discussed. Results of an extensive measurement campaign aiming at exploiting the capabilities of a custom‐built diamond‐based device to monitor the time structures of VUV and X‐ray synchrotron radiation light with sub‐100 ps timescale are presented. [ABSTRACT FROM AUTHOR]

Published

2019

5. Multipurpose modular experimental station for the DiProI beamline of Fermi@Elettra free electron laser.

Author

Pedersoli, Emanuele, Capotondi, Flavio, Cocco, Daniele, Zangrando, Marco, Kaulich, Burkhard, Menk, Ralf H., Locatelli, Andrea, Mentes, Tevfik O., Spezzani, Carlo, Sandrin, Gilio, Bacescu, Daniel M., Kiskinova, Maya, Bajt, Sasˇa, Barthelmess, Miriam, Barty, Anton, Schulz, Joachim, Gumprecht, Lars, Chapman, Henry N., Nelson, A. J., and Frank, Matthias

Subjects

FREE electron lasers, MODULAR functions, PHYSICS experiments, LASER beams, TIME-resolved spectroscopy, IMAGING systems, COHERENCE (Optics), OPTICAL polarization, EXPERIMENTAL design

Abstract

We present a compact modular apparatus with a flexible design that will be operated at the DiProI beamline of the Fermi@Elettra free electron laser (FEL) for performing static and time-resolved coherent diffraction imaging experiments, taking advantage of the full coherence and variable polarization of the short seeded FEL pulses. The apparatus has been assembled and the potential of the experimental setup is demonstrated by commissioning tests with coherent synchrotron radiation. This multipurpose experimental station will be open to general users after installation at the Fermi@Elettra free electron laser in 2011. [ABSTRACT FROM AUTHOR]

Published

2011

6. Quantitative and qualitative studies on high-contrast X-ray radiography with an asymmetrical crystal set-up at Elettra.

Author

Hönnicke, Marcelo Gonçalves, Rigon, Luigi, Menk, Ralf-H., and Cusatis, Cesar

Subjects

RADIOGRAPHY, X-rays, IONIZING radiation, X-ray optics, PHYSICAL optics, SYNCHROTRON radiation

Abstract

An analyzer-based X-ray phase contrast imaging (ABI) system with an asymmetrical crystal set-up was mounted at Elettra's SYRMEP beamline. It was the first time that this set-up was implemented at Elettra. Advantages and disadvantages of such a set-up were exploited with quantitative and qualitative studies. For quantitative studies a simple hollow tube and strands were used as samples. Qualitative studies were developed using this technique with ox brain tissue, which has never been previously examined in this manner. Minute details were found in the ABIs and in the diffraction enhanced images. This could indicate the possibility of using these techniques with computerized tomography in the future as an auxiliary method in diagnosing brain illnesses such as Alzheimer and Creutzfeldt-Jacob disease. Propagation-based X-ray phase contrast imaging was also qualitatively exploited and compared with ABI using a Loxosceles gaucho spider as a sample. [ABSTRACT FROM AUTHOR]

Published

2005

7. Biological X-ray diffraction measurements with a novel two-dimensional gaseous pixel detector.

Author

Sarvestani, Amir, Amenitsch, Heinz, Bernstorff, Sigrid, Besch, Hans-Jürgen, Menk, Ralf H., Orthen, Andre, Pavel, Nikolaj, Rappolt, Michael, Sauer, Norbert, and Walenta, Albert H.

Published

1999

8. Edge-illumination spectral phase-contrast tomography.

Author

Brombal L, Arfelli F, Brun F, Di Trapani V, Endrizzi M, Menk RH, Perion P, Rigon L, Saccomano M, Tromba G, and Olivo A

Subjects

Mice, Animals, Lighting, Photons, Tellurium, Tomography, X-Ray Computed methods, Phantoms, Imaging, Cadmium Compounds, Quantum Dots, Iodine

Abstract

Following the rapid, but independent, diffusion of x-ray spectral and phase-contrast systems, this work demonstrates the first combination of spectral and phase-contrast computed tomography (CT) obtained by using the edge-illumination technique and a CdTe small-pixel (62 μ m) spectral detector. A theoretical model is introduced, starting from a standard attenuation-based spectral decomposition and leading to spectral phase-contrast material decomposition. Each step of the model is followed by quantification of accuracy and sensitivity on experimental data of a test phantom containing different solutions with known concentrations. An example of a micro CT application (20 μ m voxel size) on an iodine-perfused ex vivo murine model is reported. The work demonstrates that spectral-phase contrast combines the advantages of spectral imaging, i.e. high- Z material discrimination capability, and phase-contrast imaging, i.e. soft tissue sensitivity, yielding simultaneously mass density maps of water, calcium, and iodine with an accuracy of 1.1%, 3.5%, and 1.9% (root mean square errors), respectively. Results also show a 9-fold increase in the signal-to-noise ratio of the water channel when compared to standard spectral decomposition. The application to the murine model revealed the potential of the technique in the simultaneous 3D visualization of soft tissue, bone, and vasculature. While being implemented by using a broad spectrum (pink beam) at a synchrotron radiation facility (Elettra, Trieste, Italy), the proposed experimental setup can be readily translated to compact laboratory systems including conventional x-ray tubes., (Creative Commons Attribution license.)

Published

2024