Your search keyword '"Cautero, Marco"' showing total 29 results

1. Highly dispersive multiplexed micromechanical device array for spatially resolved sensing and actuation

Author

Gregorat, Leonardo, Cautero, Marco, Vicarelli, Leonardo, Giuressi, Dario, Bagolini, Alvise, Tredicucci, Alessandro, Cautero, Giuseppe, and Pitanti, Alessandro

Published

2024

2. Comprehensive survey of VUV induced dissociative photoionization of aniline: Role of H migration assisted isomerization

Author

Selvaraj, Muthuamirthambal, Subramani, Arun, Ramanathan, Karthick, Cautero, Marco, Richter, Robert, Pal, Nitish, Bolognesi, Paola, Avaldi, Lorenzo, Vinitha, M.V., Jureddy, Chinmai Sai, and Kadhane, Umesh R.

Published

2023

3. FPGA Readout for Frequency-Multiplexed Array of Micromechanical Resonators for Sub-Terahertz Imaging.

Author

Gregorat, Leonardo, Cautero, Marco, Pitanti, Alessandro, Vicarelli, Leonardo, La Mura, Monica, Bagolini, Alvise, Sergo, Rudi, Carrato, Sergio, and Cautero, Giuseppe

Subjects

*FIELD programmable gate arrays, *FOCAL plane arrays sensors, *GATE array circuits, *MICROELECTROMECHANICAL systems, *PARALLEL processing, *PIXELS, *TERAHERTZ technology, *DIGITAL-to-analog converters

Abstract

Field programmable gate arrays (FPGAs) have not only enhanced traditional sensing methods, such as pixel detection (CCD and CMOS), but also enabled the development of innovative approaches with significant potential for particle detection. This is particularly relevant in terahertz (THz) ray detection, where microbolometer-based focal plane arrays (FPAs) using microelectromechanical (MEMS) resonators are among the most promising solutions. Designing high-performance, high-pixel-density sensors is challenging without FPGAs, which are crucial for deterministic parallel processing, fast ADC/DAC control, and handling large data throughput. This paper presents a MEMS-resonator detector, fully managed via an FPGA, capable of controlling pixel excitation and tracking resonance-frequency shifts due to radiation using parallel digital lock-in amplifiers. The innovative FPGA architecture, based on a lock-in matrix, enhances the open-loop readout technique by a factor of 32. Measurements were performed on a frequency-multiplexed, 256-pixel sensor designed for imaging applications. [ABSTRACT FROM AUTHOR]

Published

2024

4. In search of universalities in the dissociative photoionization of PANHs via isomerizations.

Author

S, Arun, Ramanathan, Karthick, Selvaraj, Muthuamirthambal, Cautero, Marco, Richter, Robert, Pal, Nitish, Chiarinelli, Jacopo, Bolognesi, Paola, Avaldi, Lorenzo, Vinitha, M. V., Jureddy, Chinmai Sai, and Kadhane, Umesh R.

Subjects

ISOMERIZATION, POTENTIAL energy surfaces, PHOTOIONIZATION, HYDROCYANIC acid, ION channels, ISOMERS

Abstract

In search of the cause behind the similarities often seen in the fragmentation of PANHs, vacuum ultraviolet (VUV) photodissociation of two pairs of isomers quinoline–isoquinoline and 2-naphthylamine-3-methyl-quinoline are studied using the velocity map imaging technique. The internal energy dependence of all primary fragmentation channels is obtained for all four target molecules. The decay dynamics of the four molecules is studied by comparing their various experimental signatures. The dominant channel for the first pair of isomers is found to be hydrogen cyanide (HCN) neutral loss, while the second pair of isomers lose HCNH neutral as its dominant channel. Despite this difference in their primary decay products and the differences in the structures of the four targets, various similarities in their experimental signatures are found, which could be explained by isomerization mechanisms to common structures. The fundamental role of these isomerization in controlling different dissociative channels is explored via a detailed analysis of the experimental photoelectron–photoion coincidences and the investigation of the theoretical potential energy surface. These results add to the notion of a universal PANH fragmentation mechanism and suggests the seven member isomerization as a key candidate for this universal mechanism. The balance between isomerization, dissociation, and other key mechanistic processes in the reaction pathways, such as hydrogen migrations, is also highlighted for the four molecules. [ABSTRACT FROM AUTHOR]

Published

2023

5. Characterization in the extreme ultraviolet (XUV) domain of microchannel plate based device using synchrotron radiation.

Author

Ebrahimpour, Zeinab, Mohamed, Awad E. A., Bonano, Gabriele, Cautero, Marco, Coreno, Marcello, Dabagov, Sultan B., Ferrario, Massimo, Mazuritskiy, Mikhail I., Rezvani, Javad, Stellato, Francesco, Zema, Nicola, Zuccaro, Fabio, and Marcelli, Augusto

Subjects

SYNCHROTRON radiation, MICROCHANNEL plates, OPTICAL devices, IRON & steel plates, RADIATION sources, FREE electron lasers, SOFT X rays, DIFFRACTION patterns

Abstract

Innovative, low-loss, and compact optical systems are essential to meet the experimental requirements of emerging novel radiation sources. The microchannel plate (MCP), a metamaterial-based optical device, shows promising potential for shaping, condensing, and focusing soft x-ray radiation at synchrotron radiation (SR) facilities. This study highlights the impact of MCP optical devices on SR beam condensing capability and their sensitivity to the degree of coherence by investigating the profile of transmitted beams through single and double MCP optical devices. Transmitted diffraction patterns of soft x-ray SR radiation change with energy and radiation modes. At 92 eV, the double MCP-based device affects the beam divergence and degree of coherence more than the single MCP. Moreover, the double MCP device shows potential as a condensing optics at shorter wavelengths, i.e., 480 eV. Experiments were performed at the available end-station of the Circular Polarization beamline at the Elettra synchrotron facility in Trieste, using a high-vacuum chamber with a hexapod system, providing the precise movement necessary to align these diffractive optics. The findings contribute to the development of innovative optical systems for SR and free-electron laser beamlines, paving the way for advanced experiments in spectroscopy, microscopy, and imaging in a wide energy range. [ABSTRACT FROM AUTHOR]

Published

2023

6. Design of an FPGA-Based Controller for Fast Scanning Probe Microscopy.

Author

Gregorat, Leonardo, Cautero, Marco, Carrato, Sergio, Giuressi, Dario, Panighel, Mirco, Cautero, Giuseppe, and Esch, Friedrich

Subjects

*SCANNING probe microscopy, *FIELD programmable gate arrays, *SCANNING tunneling microscopy, *DIGITAL signal processing, *ADATOMS

Abstract

Atomic-scale imaging using scanning probe microscopy is a pivotal method for investigating the morphology and physico-chemical properties of nanostructured surfaces. Time resolution represents a significant limitation of this technique, as typical image acquisition times are on the order of several seconds or even a few minutes, while dynamic processes—such as surface restructuring or particle sintering, to be observed upon external stimuli such as changes in gas atmosphere or electrochemical potential—often occur within timescales shorter than a second. In this article, we present a fully redesigned field programmable gate array (FPGA)-based instrument that can be integrated into most commercially available standard scanning probe microscopes. This instrument not only significantly accelerates the acquisition of atomic-scale images by orders of magnitude but also enables the tracking of moving features such as adatoms, vacancies, or clusters across the surface ("atom tracking") due to the parallel execution of sophisticated control and acquisition algorithms and the fast exchange of data with an external processor. Each of these measurement modes requires a complex series of operations within the FPGA that are explained in detail. [ABSTRACT FROM AUTHOR]

Published

2024

7. High Spatial Resolution Detector System Based on Reconfigurable Dual-FPGA Approach for Coincidence Measurements.

Author

Cautero, Marco, Garzetti, Fabio, Lusardi, Nicola, Sergo, Rudi, Stebel, Luigi, Costa, Andrea, Bonanno, Gabriele, Ronconi, Enrico, Geraci, Angelo, Píš, Igor, Magnano, Elena, Pedio, Maddalena, and Cautero, Giuseppe

Subjects

*TIME-digital conversion, *GATE array circuits, *CHEMICAL processes, *SPATIAL resolution, *ACQUISITION of data

Abstract

Time-resolved spectroscopic and electron–ion coincidence techniques are essential to study dynamic processes in materials or chemical compounds. For this type of analysis, it is necessary to have detectors capable of providing, in addition to image-related information, the time of arrival for each individual detected particle ("x, y, time"). The electronics capable of handling such sensors must meet requirements achievable only with time-to-digital converters (TDC) with a resolution on the order of tens of picoseconds and the use of a field-programmable gate array (FPGA) to manage data acquisition and transmission. This study introduces the design and implementation of an innovative TDC based on two FPGAs working symbiotically with different tasks: the first (AMD/Xilinx Artix® 7) directly implements a TDC, aiming for a temporal precision of 12 picoseconds, while the second (Intel Cyclone® 10) manages the acquisition and connectivity with the external world. The TDC has been optimized to operate on eight channels (+ sync) simultaneously but is potentially extendable to a greater number of channels, making it particularly suitable for coincidence measurements where it is necessary to temporally correlate multiple pieces of information from various measurement systems. [ABSTRACT FROM AUTHOR]

Published

2024

8. Coherent soft X-ray pulses from an echo-enabled harmonic generation free-electron laser

Author

Rebernik Ribič, Primož, Abrami, Alessandro, Badano, Laura, Bossi, Maurizio, Braun, Hans-Heinrich, Bruchon, Niky, Capotondi, Flavio, Castronovo, Davide, Cautero, Marco, Cinquegrana, Paolo, Coreno, Marcello, Couprie, Marie Emmanuelle, Cudin, Ivan, Boyanov Danailov, Miltcho, De Ninno, Giovanni, Demidovich, Alexander, Di Mitri, Simone, Diviacco, Bruno, Fawley, William M., Feng, Chao, Ferianis, Mario, Ferrari, Eugenio, Foglia, Laura, Frassetto, Fabio, Gaio, Giulio, Garzella, David, Ghaith, Amin, Giacuzzo, Fabio, Giannessi, Luca, Grattoni, Vanessa, Grulja, Sandi, Hemsing, Erik, Iazzourene, Fatma, Kurdi, Gabor, Lonza, Marco, Mahne, Nicola, Malvestuto, Marco, Manfredda, Michele, Masciovecchio, Claudio, Miotti, Paolo, Mirian, Najmeh S., Petrov Nikolov, Ivaylo, Penco, Giuseppe Maria, Penn, Gregory, Poletto, Luca, Pop, Mihai, Prat, Eduard, Principi, Emiliano, Raimondi, Lorenzo, Reiche, Sven, Roussel, Eléonore, Sauro, Roberto, Scafuri, Claudio, Sigalotti, Paolo, Spampinati, Simone, Spezzani, Carlo, Sturari, Luca, Svandrlik, Michele, Tanikawa, Takanori, Trovó, Mauro, Veronese, Marco, Vivoda, Davide, Xiang, Dao, Zaccaria, Maurizio, Zangrando, Dino, Zangrando, Marco, and Allaria, Enrico Massimiliano

Published

2019

9. Experimental Characterization of Separate Absorption–Multiplication GaAs Staircase Avalanche Photodiodes under Continuous Laser Light Reveals Periodic Oscillations at High Gains.

Author

Colja, Matija, Cautero, Marco, Arfelli, Fulvia, Bertolo, Michele, Biasiol, Giorgio, Dal Zilio, Simone, Driussi, Francesco, Menk, Ralf Hendrik, Modesti, Silvio, Palestri, Pierpaolo, Pilotto, Alessandro, and Cautero, Giuseppe

Subjects

AVALANCHE photodiodes, AUDITING standards, IMPACT ionization, OSCILLATIONS, GALLIUM arsenide

Abstract

In this work, we experimentally analyze the periodic oscillations that take place in staircase APDs with separate absorption and multiplication regions when operating under continuous laser light. These oscillations increase in frequency when the APD gain increases. We have verified that they are not affected by the parameters (gain and bandwidth) of the transimpedance amplifier, and thus originate inside the APD. The phenomenon is analyzed systematically by considering devices with different thicknesses of the absorption region. Possible physical interpretations related to the flux of holes generated by impact ionization are provided. [ABSTRACT FROM AUTHOR]

Published

2023

10. Synchrotron Radiation Study of Gain, Noise, and Collection Efficiency of GaAs SAM-APDs with Staircase Structure.

Author

Colja, Matija, Cautero, Marco, Menk, Ralf Hendrik, Palestri, Pierpaolo, Gianoncelli, Alessandra, Antonelli, Matias, Biasiol, Giorgio, Dal Zilio, Simone, Steinhartova, Tereza, Nichetti, Camilla, Arfelli, Fulvia, De Angelis, Dario, Driussi, Francesco, Bonanni, Valentina, Pilotto, Alessandro, Gariani, Gianluca, Carrato, Sergio, and Cautero, Giuseppe

Subjects

*AUDITING standards, *MOLECULAR beam epitaxy, *GALLIUM arsenide, *SYNCHROTRON radiation, *TIME-resolved spectroscopy, *AVALANCHE photodiodes

Abstract

In hard X-ray applications that require high detection efficiency and short response times, such as synchrotron radiation-based Mössbauer absorption spectroscopy and time-resolved fluorescence or photon beam position monitoring, III–V-compound semiconductors, and dedicated alloys offer some advantages over the Si-based technologies traditionally used in solid-state photodetectors. Amongst them, gallium arsenide (GaAs) is one of the most valuable materials thanks to its unique characteristics. At the same time, implementing charge-multiplication mechanisms within the sensor may become of critical importance in cases where the photogenerated signal needs an intrinsic amplification before being acquired by the front-end electronics, such as in the case of a very weak photon flux or when single-photon detection is required. Some GaAs-based avalanche photodiodes (APDs) were grown by a molecular beam epitaxy to fulfill these needs; by means of band gap engineering, we realised devices with separate absorption and multiplication region(s) (SAM), the latter featuring a so-called staircase structure to reduce the multiplication noise. This work reports on the experimental characterisations of gain, noise, and charge collection efficiencies of three series of GaAs APDs featuring different thicknesses of the absorption regions. These devices have been developed to investigate the role of such thicknesses and the presence of traps or defects at the metal–semiconductor interfaces responsible for charge loss, in order to lay the groundwork for the future development of very thick GaAs devices (thicker than 100 μ m) for hard X-rays. Several measurements were carried out on such devices with both lasers and synchrotron light sources, inducing photon absorption with X-ray microbeams at variable and controlled depths. In this way, we verified both the role of the thickness of the absorption region in the collection efficiency and the possibility of using the APDs without reaching the punch-through voltage, thus preventing the noise induced by charge multiplication in the absorption region. These devices, with thicknesses suitable for soft X-ray detection, have also shown good characteristics in terms of internal amplification and reduction of multiplication noise, in line with numerical simulations. [ABSTRACT FROM AUTHOR]

Published

2022

11. First Lasing of a Free Electron Laser in the Soft X-Ray Spectral Range with Echo Enabled Harmonic Generation

Author

Allaria, Enrico, Abrami, Alessandro, Badano, Laura, Bossi, Maurizio, Braun, Hans-Heinrich, Bruchon, Niky, Capotondi, Flavio, Castronovo, Davide, Cautero, Marco, Cinquegrana, Paolo, Coreno, Marcello, Couprie, Marie-Emmanuelle, Cudin, Ivan, Danailov, Miltcho, De Ninno, Giovanni, Demidovich, Alexander, Di Mitri, Simone, Diviacco, Bruno, Fawley, William, Feng, Chao, Ferianis, Mario, Ferrari, Eugenio, Foglia, Laura, Frassetto, Fabio, Gaio, Giulio, Garzella, David, Ghaith, Amin, Giacuzzo, Fabio, Giannessi, Luca, Grattoni, Vanessa, Grulja, Sandi, Hemsing, Erik, Iazzourene, Fatma, Kurdi, Gabor, Lonza, Marco, Mahne, Nicola, Malvestuto, Marco, Manfredda, Michele, Masciovecchio, Claudio, Miotti, Paolo, Mirian, Najmeh, Nikolov, Ivaylo, Penco, Giuseppe, Penn, Gregory, Poletto, Luca, Pop, Mihai, Prat, Eduard, Principi, Emiliano, Raimondi, Lorenzo, Rebernik Ribič, Primoz, Reiche, Sven, Roussel, Eléonore, Sauro, Roberto, Scafuri, Claudio, Sigalotti, Paolo, Spampinati, Simone, Spezzani, Carlo, Sturari, Luca, Svandrlik, Michele, Tanikawa, Takanori, Trovò, Mauro, Veronese, Marco, Vivoda, Davide, Xiang, Dao, Zaccaria, Maurizio, Zangrando, Dino, Zangrando, Marco, Synchrotron SOLEIL (SSOLEIL), Centre National de la Recherche Scientifique (CNRS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Laboratoire de Physique des Lasers, Atomes et Molécules - UMR 8523 (PhLAM), and Université de Lille-Centre National de la Recherche Scientifique (CNRS)

Subjects

FEL, electron, free-electron laser, experiment, echo enabled harmonic generation, [PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph], free-electron-laser, Accelerator Physics, First Lasing, laser

Abstract

We report on the successful operation of a Free Electron Laser (FEL) in the Echo Enabled Harmonic Generation (EEHG) scheme at the FERMI facility at Sincrotrone Trieste. The experiment required a modification of the FEL-2 undulator line which, in normal operation, uses two stages of high-gain harmonic generation separated by a delay line. In addition to a new seed laser, the dispersion in the delay-line was increased, the second stage modulator changed and a new manipulator installed in the delay-line chicane hosting additional diagnostic components. With this modified setup we have demonstrated the first evidence of strong exponential gain in a free electron laser operated in EEHG mode at wavelengths as short as 5 nm., Proceedings of the 39th Free Electron Laser Conference, FEL2019, Hamburg, Germany

Published

2019

12. ESS Related Activities at Elettra Sincrotrone Trieste

Author

Fabris, Alessandro, Caiazza, Domenico, Castronovo, Davide, Cautero, Marco, Cleva, Stefano, De Monte, Raffaele, Fabris, Riccardo, Ferianis, Mario, Gubertini, Alessandro, Gucin, Taha, Laghi, Rodolfo, Loda, Giorgio, Pasotti, Cristina, Visintini, Roberto, and Grulja, Sandi

Subjects

MC4: Hadron Accelerators, Accelerator Physics

Abstract

Elettra Sincrotrone Trieste Research Center (Elettra) is one the Italian Institutions, together with Istituto Nazionale di Fisica Nucleare (INFN) and Consiglio Nazionale delle Ricerche (CNR), committed to the realization of the Italian in-kind contributions for the European Spallation Source. Elettra contributions are concentrated on the proton accelerator and more specifically they concern the construction of the conventional iron-dominated electro-magnets and related power converters to be installed in the superconducting part of the linac and in the High Energy Beam Transport (HEBT), the RF power stations for the superconducting spoke cavity linac section and the wire scanner acquisition system for the beam diagnostics. This paper provides a description of the contributions and an overview of the status of the construction activities., Proceedings of the 10th Int. Particle Accelerator Conf., IPAC2019, Melbourne, Australia

Published

2019

13. Storageless Resonant Converter for Accelerator Magnets

Author

Cautero, Marco and Gucin, Taha

Subjects

MC7: Accelerator Technology, Accelerator Physics

Abstract

Elettra Sincrotrone Trieste, a specialized research centre generating high quality synchrotron radiation, has been in operation since 1993 and was revised in 2009. Recently, Elettra has been funded for a complete renewal of the storage ring. For the new machine, it is planned to employ state of the art converters, mostly of which will be designed in-house. For this purpose, it has been decided to evaluate the performance of a storage-less resonant converter, pro-posed by Dr. Slobodan Ćuk, which is a step down DC/DC converter consisting of four switches, one resonant capac-itor and two resonant inductors. For this purpose, the voltage conversion ratio of the converter has been de-rived. The topology was confirmed with simulation and a PCB layout has been designed, which is still to be tested., Proceedings of the 10th Int. Particle Accelerator Conf., IPAC2019, Melbourne, Australia

Published

2019

14. FERMI Configuration for the Echo Enabled Harmonic Generation Experiment

Author

Allaria, Enrico, Castronovo, Davide, Cautero, Marco, Cudin, Ivan, Danailov, Miltcho, Diviacco, Bruno, Giannessi, Luca, Veronese, Marco, and Zangrando, Marco

Subjects

MC2: Photon Sources and Electron Accelerators, Accelerator Physics

Abstract

The FERMI FEL-2 undulator line, normally operated in the double stage high gain harmonic generation with the fresh bunch (HGHG-FB) has been temporary modified to allow operating the FEL in the Echo Enabled Harmonic Generation (EEHG) scheme. An increase of the dispersion in the delay-line was required together with a replacement of the second stage modulator allowing the electron beam to resonantly interact with a second seed laser. Another critical component of the EEHG setup is a new manipulator installed in the delay-line chicane and hosting additional diagnostic components. In this work we describe in some detail these new components that allowed a successful demonstration of the EEHG at harmonics as high as 101., Proceedings of the 10th Int. Particle Accelerator Conf., IPAC2019, Melbourne, Australia

Published

2019

15. Power Converters for the ESS Warm Magnets: Procurement Status

Author

Visintini, Roberto, Cautero, Marco, Gucin, Taha, and Martins, Carlos

Subjects

MC7: Accelerator Technology, Accelerator Physics

Abstract

In the frame of the Italian In-Kind collaboration for the construction of the European Spallation Source (ESS), Elettra Sincrotrone Trieste research center is in charge, among all, of the provision of the power converters for the warm magnets of the superconducting part of the linear accelerator and of the proton beam transport line. The procurement process is running for all types of power converters. The first components have been delivered to ESS already in March 2018, while the Dipole and Quadrupole power converters are under construction. The first batches have been factory tested and shipped to Lund. The corrector power converters have been manufactured and are currently tested and calibrated at Elettra before their delivery to ESS., Proceedings of the 10th Int. Particle Accelerator Conf., IPAC2019, Melbourne, Australia

Published

2019

16. Radio Frequency Power Stations for ESS LINAC Spoke Section

Author

Pasotti, Cristina, Cautero, Marco, Gucin, Taha, Martins, Carlos, and Yogi, Rutambhara

Subjects

MC7: Accelerator Technology, Accelerator Physics

Abstract

26 equivalent 400 kW Radio Frequency Power Station (RFPS) units will be provided by Elettra as part of the Italian in kind contribution to ESS. They will be installed in the LINAC "Spoke Section". Each RFPS will power a single superconducting spoke cavity in pulsed operation at 352.21 MHz. The RFPS is a complete system that operates unmanned, based on a combination of solid state and tetrode amplification’s stages. The tender specification, the RFPS main features and requested performances are reported here., Proceedings of the 10th Int. Particle Accelerator Conf., IPAC2019, Melbourne, Australia

Published

2019

17. Elettra Status Present Upgrades and Plans

Author

Karantzoulis, Emanuel, Carniel, Alessandro, Cautero, Marco, Diviacco, Bruno, Krecic, Stefano, and Visintini, Roberto

Subjects

02 Photon Sources and Electron Accelerators, Accelerator Physics

Abstract

The operational status of the Italian 2.4/2.0 GeV third generation light source Elettra is presented together with an account of some present upgrades and plans for the near future., Proceedings of the 8th Int. Particle Accelerator Conf., IPAC2017, Copenhagen, Denmark

Published

2017

18. Power Converters for the ESS Warm Magnets

Author

Visintini, Roberto, Cautero, Marco, GöRansson, GöRan, Martins, Carlos, and Torri, Paulo

Subjects

07 Accelerator Technology, Physics::Accelerator Physics, Accelerator Physics

Abstract

In the framework of the Italian In-Kind Contribution (IKC) to the construction of the European Spallation Source (ESS), Elettra Sincrotrone Trieste is in charge of providing some key equipment for the accelerator. Among them, there are the magnets and the associated power converters for the Linac Warm Units (LWU), the High Energy Beam Transport (HEBT) dogleg, the Dump Line (DmpL) and the Accelerator to Target (A2T) sections of the neutron source. Magnets and their power converters are complementary parts of common systems. Their design cannot be totally separated, requiring iterations for an optimal solution that should include also power cable standardization. This work will describe the power converters' solutions adopted for the magnets of the above-mentioned sections. They comprise 4-Quadrant power converters for the correctors, compact DC power converters for the small quadrupole magnets and more powerful DC power converters for the dipole and large quadrupole magnets., Proceedings of the 8th Int. Particle Accelerator Conf., IPAC2017, Copenhagen, Denmark

Published

2017

19. Upgrade of the Elettra Magnet Power Supply Controllers

Author

Cleva, Stefano, Cautero, Marco, Cieśla, Tomasz, Lonza, Marco, Pivetta, Lorenzo, Scafuri, Claudio, and Visintini, Roberto

Subjects

T11 Power Supplies, Accelerator Physics, 07 Accelerator Technology Main Systems

Abstract

Ageing of devices and components phasing-out, as well as the increasing maintenance costs, affect particle accelerators similarly to any industrial plant. A careful maintenance plan can cope with these problems in the medium-term, but then a complete update of the oldest parts is required. The most recent technologies available on the market together with a modular and open design approach are the basis of an upgrade program aimed at replacing the existing controllers of the Elettra storage ring magnet power supplies. The design considerations, the constraints and the first results are reported., Proceedings of the 5th Int. Particle Accelerator Conf., IPAC2014, Dresden, Germany

Published

2014

20. The Elettra 3.5 T Superconducting Wiggler Refurbishment

Author

Zangrando, Dino, Bracco, Roberto, Castronovo, Davide, Cautero, Marco, Karantzoulis, Emanuel, Khrushchev, Sergey, Krecic, Stefano, Loda, Giorgio, Mezentsev, Nikolai, Millo, Daniele, Pivetta, Lorenzo, Scalamera, Graziano, Shkaruba, Vitaliy, Syrovatin, Vasily, Tarasenko, Olga, Tsukanov, Valery, Visintini, Roberto, and Volkov, Askold

Subjects

T10 Superconducting Magnets, Accelerator Physics, 07 Accelerator Technology Main Systems

Abstract

A 3.5 Tesla 64 mm period superconducting wiggler (SCW) was constructed by the Russian Budker Institute of Novosibirsk (BINP) and installed in the Elettra storage ring as a photon source for the second X-ray diffraction beamline in November 2002, but never used due to the lack of the funding required for the beamline construction. About three years ago, the beamline construction was finally funded together with the refurbishment of the SCW. This upgrade, that was necessary in order to make the SCW operations compatible with the top up mode of the storage ring aimed in a drastic reduction of the liquid helium consumption by means of replacing the cryostat with a new version. At the same time the upgrade aimed as well to improve the reliability of the cryostat, to update the control system and to verify the magnetic field performance after a very long time of inactivity. In this paper we present and discuss the performances of the SCW following its refurbishment carried out by BINP team and its re-commissioning in the Elettra storage ring., Proceedings of the 5th Int. Particle Accelerator Conf., IPAC2014, Dresden, Germany

Published

2014

21. Power converters for the magnets of the Linac Warm Units of ESS.

Author

Visintini, Roberto, Cautero, Marco, Martins, Carlos, Goransson, Goran, and Collins, Max

Published

2016

22. A New Concept of Controller for Accelerators’ Magnet Power Supplies.

Author

Visintini, Roberto, Cleva, Stefano, Cautero, Marco, and Ciesla, Tomasz

Subjects

PARTICLE accelerator control systems, POWER resources, LINEAR accelerators, STORAGE rings, MICROCONTROLLERS, LIGHT sources, PERFORMANCE evaluation

Abstract

The complexity of a particle accelerator implies the remote control of very large numbers of devices, with many different typologies, either distributed along the accelerator or concentrated in locations, often far away from each other. Local and global control systems handle the devices through dedicated communication channels and interfaces. Each controlled device is practically a “smart node” performing a specific task. In addition, very often, those tasks are managed in real-time mode. The performances required to the control interface has an influence on the cost of the distributed nodes as well as on their hardware and software implementation. In large facilities (e.g. CERN) the “smart nodes” derive from specific in-house developments. Alternatively, it is possible to find on the market commercial devices, whose performances (and prices) are spread over a broad range, and spanning from proprietary design (customizable to the user’s needs) to open source/design. In this paper, we will describe some applications of smart nodes in the particle accelerators field, with special focus on the power supplies for magnets. In modern accelerators, in fact, magnets and their associated power supplies constitute systems distributed along the accelerator itself, and strongly interfaced with the remote control system as well as with more specific (and often more demanding) orbit/trajectory feedback systems. We will give examples of actual systems, installed and operational on two light sources, Elettra and FERMI, located in the Elettra Research Center in Trieste, Italy. [ABSTRACT FROM PUBLISHER]

Published

2016

23. Performance assessment of the new remote power supply controller for the Elettra Storage Ring magnets.

Author

Cleva, Stefano, Cautero, Marco, Ciesla, Tomasz, Visintini, Roberto, and Outeiro, Maria Teresa

Published

2014

24. How open design solutions are going to affect particle accelerators controls and diagnostics: The Elettra case.

Author

Cleva, Stefano, Cautero, Marco, Ciesla, Tomasz, Gaio, Giulio, Lonza, Marco, Pivetta, Lorenzo, Scafuri, Claudio, Sigalotti, Paolo, and Visintini, Roberto

Published

2014

25. New remote control strategies for the magnet power supplies of the Elettra Storage Ring.

Author

Visintini, Roberto, Cautero, Marco, and Cleva, Stefano

Abstract

The Elettra Storage Ring is operating for external Users since 1994. High stability, low ripple, DC power supplies are needed for energizing the magnets used to keep the electron beam on the defined path with the required characteristics. The remote control of the power supplies is still based on VME standard and serial MIL 1553 network. A study for upgrading the local power supplies control system, adopting modern technologies and software tools is presented in the article, along with the inherent difficulties due to the large number of units and the impact on the operation of the accelerator. [ABSTRACT FROM PUBLISHER]

Published

2013

26. Improvements on the booster magnet power converters at Elettra.

Author

Cautero, Marco, Ciesla, Tomasz, and Visintini, Roberto

Published

2015

27. First in‐Vacuum In Situ X‐AFM/XRF/STXM Soft X‐Rays Combination Measurements and Characterization.

Author

Hafner, Aljoša, Costa, Luca, Kourousias, George, Dobovičnik, Edvard, Cautero, Marco, Gregorat, Leonardo, Žižić, Milan, Bonanni, Valentina, Cautero, Giuseppe, and Gianoncelli, Alessandra

Subjects

*ASBESTOS, *SYNCHROTRONS, *MANUSCRIPTS, *PROTOTYPES, *FIBERS

Abstract

ABSTRACT This manuscript details the advancements in developing a unique multimodal imaging setup, specifically the integration of X‐AFM on a synchrotron beamline that currently combines STXM and XRF. This triplet configuration operates within the soft x‐ray regime (< 2.5 keV) and necessitates high vacuum instrumentation, targeting sub‐micrometric applications with nanometric precision. Building on a previously successful prototype, the paper presents the current setup, the challenges encountered, and the solutions implemented. Additionally, it highlights significant custom developments in specialized electronics that enabled practical utilization of the new instrument. In particular, multiple samples, including asbestos fibers from a broader high‐impact research project, were measured and characterized in situ for the first time. The overall performance is critically evaluated through an ex‐situ comparison with a commercial single‐modality AFM system. Finally, the manuscript discusses the roadmap for future advancements in related instrumentation, methods, and applications. [ABSTRACT FROM AUTHOR]

Published

2024

28. Coherent Soft X-Ray pulses from an Echo-Enabled Harmonic Generation Free-Electron Laser

Author

Rebernik Ribič, Primož, Abrami, Alessandro, Badano, Laura, Bossi, Maurizio, Braun, Hans-Heinrich, Bruchon, Niky, Capotondi, Flavio, Castronovo, Davide, Cautero, Marco, Cinquegrana, Paolo, Coreno, Marcello, Couprie, Marie Emmanuelle, Cudin, Ivan, Boyanov Danailov, Miltcho, De Ninno, Giovanni, Demidovich, Alexander, Di Mitri, Simone, Diviacco, Bruno, Fawley, William M., Feng, Chao, Ferianis, Mario, Ferrari, Eugenio, Foglia, Laura, Frassetto, Fabio, Gaio, Giulio, Garzella, David, Ghaith, Amin, Giacuzzo, Fabio, Giannessi, Luca, Grattoni, Vanessa, Grulja, Sandi, Hemsing, Erik, Iazzourene, Fatma, Kurdi, Gabor, Lonza, Marco, Mahne, Nicola, Malvestuto, Marco, Manfredda, Michele, Masciovecchio, Claudio, Miotti, Paolo, Mirian, Najmeh S., Petrov Nikolov, Ivaylo, Penco, Giuseppe Maria, Penn, Gregory, Poletto, Luca, Pop, Mihai, Prat, Eduard, Principi, Emiliano, Raimondi, Lorenzo, Reiche, Sven, Roussel, Eléonore, Sauro, Roberto, Scafuri, Claudio, Sigalotti, Paolo, Spampinati, Simone, Spezzani, Carlo, Sturari, Luca, Svandrlik, Michele, Tanikawa, Takanori, Trovó, Mauro, Veronese, Marco, Vivoda, Davide, Xiang, Dao, Zaccaria, Maurizio, Zangrando, Dino, Zangrando, Marco, and Allaria, Enrico Massimiliano

Subjects

7. Clean energy

Abstract

Nature photonics 13(8), 555 - 561 (2019). doi:10.1038/s41566-019-0427-1, X-ray free-electron lasers (FELs), which amplify light emitted by a relativistic electron beam, are extending nonlinear optical techniquesto shorter wavelengths, adding element specificity by exciting and probing electronic transitions from core levels. Thesetechniques would benefit tremendously from having a stable FEL source, generating spectrally pure and wavelength-tunable pulses.We show that such requirements can be met by operating the FEL in the so-called echo-enabled harmonic generation (EEHG) configuration.Here, two external conventional lasers are used to precisely tailor the longitudinal phase space of the electron beambefore emission of X-rays. We demonstrate high-gain EEHG lasing producing stable, intense, nearly fully coherent pulses at wavelengthsas short as 5.9 nm (~211 eV) at the FERMI FEL user facility. Low sensitivity to electron-beam imperfections and observationof stable, narrow-band, coherent emission down to 2.6 nm (~474 eV) make the technique a prime candidate for generatinglaser-like pulses in the X-ray spectral region, opening the door to multidimensional coherent spectroscopies at short wavelengths., Published by Nature Publ. Group, London [u.a.]

29. Synchrotron Radiation Study of Gain, Noise, and Collection Efficiency of GaAs SAM-APDs with Staircase Structure

Author

Matija Colja, Marco Cautero, Ralf Hendrik Menk, Pierpaolo Palestri, Alessandra Gianoncelli, Matias Antonelli, Giorgio Biasiol, Simone Dal Zilio, Tereza Steinhartova, Camilla Nichetti, Fulvia Arfelli, Dario De Angelis, Francesco Driussi, Valentina Bonanni, Alessandro Pilotto, Gianluca Gariani, Sergio Carrato, Giuseppe Cautero, Colja, Matija, Cautero, Marco, Menk, Ralf Hendrik, Palestri, Pierpaolo, Gianoncelli, Alessandra, Antonelli, Matia, Biasiol, Giorgio, Dal Zilio, Simone, Steinhartova, Tereza, Nichetti, Camilla, Arfelli, Fulvia, De Angelis, Dario, Driussi, Francesco, Bonanni, Valentina, Pilotto, Alessandro, Gariani, Gianluca, Carrato, Sergio, and Cautero, Giuseppe

Subjects

X-ray photodetector, synchrotron radiation, GaAs separate absorption multiplication avalanche photodiode (GaAs SAM-APD), collection efficiency, staircase structure, Electrical and Electronic Engineering, Biochemistry, Instrumentation, Atomic and Molecular Physics, and Optics, Analytical Chemistry

Abstract

In hard X-ray applications that require high detection efficiency and short response times, such as synchrotron radiation-based Mössbauer absorption spectroscopy and time-resolved fluorescence or photon beam position monitoring, III–V-compound semiconductors, and dedicated alloys offer some advantages over the Si-based technologies traditionally used in solid-state photodetectors. Amongst them, gallium arsenide (GaAs) is one of the most valuable materials thanks to its unique characteristics. At the same time, implementing charge-multiplication mechanisms within the sensor may become of critical importance in cases where the photogenerated signal needs an intrinsic amplification before being acquired by the front-end electronics, such as in the case of a very weak photon flux or when single-photon detection is required. Some GaAs-based avalanche photodiodes (APDs) were grown by a molecular beam epitaxy to fulfill these needs; by means of band gap engineering, we realised devices with separate absorption and multiplication region(s) (SAM), the latter featuring a so-called staircase structure to reduce the multiplication noise. This work reports on the experimental characterisations of gain, noise, and charge collection efficiencies of three series of GaAs APDs featuring different thicknesses of the absorption regions. These devices have been developed to investigate the role of such thicknesses and the presence of traps or defects at the metal–semiconductor interfaces responsible for charge loss, in order to lay the groundwork for the future development of very thick GaAs devices (thicker than 100 μm) for hard X-rays. Several measurements were carried out on such devices with both lasers and synchrotron light sources, inducing photon absorption with X-ray microbeams at variable and controlled depths. In this way, we verified both the role of the thickness of the absorption region in the collection efficiency and the possibility of using the APDs without reaching the punch-through voltage, thus preventing the noise induced by charge multiplication in the absorption region. These devices, with thicknesses suitable for soft X-ray detection, have also shown good characteristics in terms of internal amplification and reduction of multiplication noise, in line with numerical simulations.

Published

2022