Search

Your search keyword '"Mascali D."' showing total 577 results
Start Over Author "Mascali D."
577 results on '"Mascali D."'

1. A new approach to β-decays studies impacting nuclear physics and astrophysics: The PANDORA setup

Author

Mascali D., Santonocito D., Busso M., Celona L., Galatà A., La Cognata M., Mauro G. S., Mengoni A., Naselli E., Odorici F., Palmerini S., Pidatella A., Ràcz R., Taioli S., and Torrisi G.

Subjects
Physics, QC1-999
Abstract

Theory predicts that lifetimes of β-radionuclides can change dramatically as a function of their ionization state. Experiments performed in Storage Rings on highly ionized atom have proven nuclei can change their beta decay lifetime up to several orders of magnitude. The PANDORA (Plasmas for Astrophysics, Nuclear Decay Observation and Radiation for Archaeometry) experiment is now conceived to measure, for the first time, nuclear β-decay rates using magnetized laboratory plasma that can mimic selected stellar-like conditions in terms of the temperature of the environment. The main feature of the setup which is based on a plasma trap to create and sustain the plasma, a detector array for the measurement of the gamma-rays emitted by the daughter nuclei after the decay process and the diagnostic tools developed to online monitor the plasma will be presented. A short list of the physics cases we plan to investigate together with an evaluation of their feasibility will be also discussed.

Published
2023
Full Text
View/download PDF

2. Laser-Driven Structure-Based Accelerators

Author

England, R. J., Filippetto, D., Torrisi, G., Bacci, A., Della Valle, G., Mascali, D., Mauro, G. S., Sorbello, G., Musumeci, P., Scheuer, J., Cowan, B., Schachter, L, Huang, Y-C., Niedermayer, U., Kimura, W. D., Li, R., Ishebeck, R., Simakov, E. I., Hommelhoff, P., and Byer, R. L.

Subjects
Physics - Accelerator Physics
Abstract

Particle acceleration in microstructures driven by ultrafast solid state lasers is a rapidly evolving area of advanced accelerator research, leading to a variety of concepts based on planar-symmetric dielectric gratings, hollow core fibers, photonic crystals, and plasmonic meta-surfaces. This approach leverages well-established industrial fabrication capabilities and the commercial availability of tabletop lasers to reduce cost, with demonstrated axial accelerating fields in the GV/m range. Wide-ranging international efforts have significantly improved understanding of gradient limits, structure design, particle focusing and transport, staging, and development of compatible low-emittance electron sources. With a near-term focus on low-current MeV-scale applications for compact scientific and medical instruments, as well as novel diagnostics capabilities, structure-based laser-driven accelerators have several key benefits that warrant consideration for future high-energy physics machines, including low beamstrahlung energy loss, modest power requirements, stability, and readiness of supporting technologies., Comment: arXiv admin note: substantial text overlap with arXiv:2203.03811, arXiv:1901.10370

Published
2022

3. The Flexible Plasma Trap (FPT) for the production of overdense plasmas

Author

Gammino, S., Celona, L., Mascali, D., Castro, G., Torrisi, G., Neri, L., Mazzaglia, M., Sorbello, G., Leonardi, O., Allegra, L., Calabrese, G., Chines, F., Gallo, G., and Passerello, S.

Subjects
Physics - Accelerator Physics
Abstract

Electron Cyclotron Resonance Ion Sources are currently the most efficient ion sources among those used in facilities dedicated to nuclear physics. The need for a more flexible magnetic field and RF injection system suggested to design and develop a different type of plasma trap, named Flexible Plasma Trap (FPT). The magnetic field of FPT is generated by means of three coils while microwaves in the range 4-7 GHz can be injected by three different inputs, one placed along the axis and two placed radially. FPT can work in different plasma heating schemes so it will be an ideal tool for studies of plasma and multidisciplinary physics. Moreover, a microwave launcher has been designed and installed to the FPT for launching microwaves with a variable tilt angle with respect to the magnetic field. This paper describes the characteristics of the FPT along with the preliminary results of plasma diagnostics.

Published
2022
Full Text
View/download PDF

4. Study of nuclear reactions in laser plasmas at future ELI-NP facility

Author

Lanzalone G., Altana C., Anzalone A., Cappuzzello F., Cavallaro M., Gizzi L. A., Labate L., Lamia L., Mascali D., Muoio A., Negoita F., Odorici F., Petrascu H., Trifirò A., Trimarchi M., and Tudisco S.

Subjects
Physics, QC1-999
Abstract

In this contribution we will present the future activities that our collaboration will carry out at ELI-NP (Extreme Light Infrastructure Nuclear Physics), the new multi peta-watt Laser facility, currently under construction at Bucharest (Romania). The activities concerns the study of nuclear reactions in laser plasmas. In this framework we proposed the construction of a new, general-purpose experimental set-up able to detect and identify neutrons and charged particles.

Published
2016
Full Text
View/download PDF

5. Numerical and Experimental Characterization of RF Waves Propagation in Ion Sources Magnetoplasmas

Author

Torrisi, G., Mascali, D., Sorbello, G., Castro, G., Celona, L., and Gammino, S.

Subjects
Physics - Accelerator Physics
Abstract

This paper describes three-dimensional numerical simulations and Radio Frequency (RF) measurements of wave propagation in microwave-heated magnetized plasmas of ion sources. Full-wave solution of Maxwell's equations has been addressed through the Finite Element Method (FEM) commercial software COMSOL. Our numerical model takes into account the strongly inhomogeneous and anisotropic magnetized "cold" plasma medium. The simulations reproduce the main features of the wave-plasma interaction of the Flexible Plasma Trap (FPT) that recently came into operations at INFN-LNS. A two-pins RF probe has been ad-hoc developed and used as a plasmaimmersed antenna for measuring local wave electric fields in the FPT device. The measurements of plasma electron density and RF electric field, performed for different external magnetic field configuration, allowed a direct comparison with the assumed simulation model.

Published
2021
Full Text
View/download PDF

6. A novel numerical tool to study electron energy distribution functions of spatially-anisotropic and non-homogeneous ECR plasmas

Author

Mishra, B., Pidatella, A., Biri, S., Galatà, A., Naselli, E., Rácz, R., Torrisi, G., and Mascali, D.

Subjects
Physics - Plasma Physics
Abstract

A numerical tool for analysing spatially anisotropic electron populations in electron cyclotron resonance (ECR) plasmas has been developed, using a trial-and-error electron energy distribution function (EEDF) fitting method. The method has been tested on space-resolved warm electrons in the energy range $2-20\,\mathrm{keV}$, obtained from self-consistent simulations modelling only electron dynamics in ECR devices, but lacked real-world validation. For experimentally benchmarking the method, we attempted to numerically reproduce the experimental X-ray emission spectrum measured from an argon plasma. Results of this analysis have provided crucial information about density and temperature of warm electrons, and competing distributions of warm and hot electron components. This information can be fed back to simulation models to generate more realistic data. Subsequent application of the numerical tool as described to the improved simulation data can result in continuous EEDFs that reflect the nature of charge distributions in anisotropic ECR plasmas. These functions can be also applied to electron dependent reactions, in order to reproduce experimental results, like those concerning space-dependent K$\alpha$ emissions.

Published
2021
Full Text
View/download PDF

7. Feasibility Study and Perspectives of proton Dielectric Laser Accelerators (p-DLA): from nanosource to accelerator scheme

Author

Torrisi, G., Mascali, D., Bacci, A., Cirrone, G. A. P., Cosentino, G., Della Valle, G., Gambino, N., Mauro, G. S., Petringa, G., Russo, G., Schmitzer, C., Sorbello, G., and Wilhelm, R. A.

Subjects
Physics - Accelerator Physics
Abstract

In this paper we discuss the possibility to generate and accelerate proton nanobeams in fully dielectric laser-driven accelerators (p-DLAs). High gradient on-chip optical-power dielectric laser accelerators (DLAs) could represent one of the most promising way towards future miniaturized particle accelerator. A primary challenge for DLAs are small beam apertures having a size of the order of the driving laser wavelength where low charge high-repetition (or also CW) ultralow emittance nanobeams have to be transported. For electrons beams generation and acceleration, intense research activities are ongoing, and several demonstrations have been already obtained by using electrons nanotip (or flat photocathode) sources feeding dielectric microstructures. In this article we aim at the possibility to integrate a nanosource for the generation of a light ion or proton nano-beams suitable for the subsequent acceleration into sub-relativistic (low-beta) p-DLA stages. Such integration includes the idea to use a proton dielectric radiofrequency quadrupole (p-DRFQ) for bridging the gap between the accelerator front-end and the drift-tube and high-beta sections. The paper has been prepared as a white book including state-of-art technologies and new solutions that now put the ambitious frontier of a fully nanostructured proton accelerator into reach. Conceptual studies of p-DLAs here presented could enable table-top proton nano-beams for several applications: proton beam writing, nuclear reaction analysis at sub-micrometer scales, the construction of miniaturized Proton-Boron Nuclear Fusion based Reactors, biological analysis at the micrometer scale, ion beam analysis at the sub-cellular level, mini-beams ion therapy to spare the shallow tissues, proton irradiation of transistors, compact proton linac for neutron generation.

Published
2021

8. Nuclear physics midterm plan at LNS

Author

Agodi, C., Cappuzzello, F., Cardella, G., Cirrone, G. A. P., De Filippo, E., Di Pietro, A., Gargano, A., La Cognata, M., Mascali, D., Milluzzo, G., Nania, R., Petringa, G., Pidatella, A., Pirrone, S., Pizzone, R. G., Rapisarda, G. G., Sergi, M. L., Tudisco, S., Valiente-Dobón, J. J., Vardaci, E., Abramczyk, H., Acosta, L., Adsley, P., Amaducci, S., Banerjee, T., Batani, D., Bellone, J., Bertulani, C., Biri, S., Bogachev, A., Bonanno, A., Bonasera, A., Borcea, C., Borghesi, M., Bortolussi, S., Boscolo, D., Brischetto, G. A., Burrello, S., Busso, M., Calabrese, S., Calinescu, S., Calvo, D., Capirossi, V., Carbone, D., Cardinali, A., Casini, G., Catalano, R., Cavallaro, M., Ceccuzzi, S., Celona, L., Cherubini, S., Chieffi, A., Ciraldo, I., Ciullo, G., Colonna, M., Cosentino, L., Cuttone, G., D’Agata, G., De Gregorio, G., Degl’Innocenti, S., Delaunay, F., Di Donato, L., Di Nitto, A., Dickel, T., Doria, D., Ducret, J. E., Durante, M., Esposito, J., Farrokhi, F., Fernandez Garcia, J. P., Figuera, P., Fisichella, M., Fulop, Z., Galatá, A., Galaviz Redondo, D., Gambacurta, D., Gammino, S., Geraci, E., Gizzi, L., Gnoffo, B., Groppi, F., Guardo, G. L., Guarrera, M., Hayakawa, S., Horst, F., Hou, S. Q., Jarota, A., José, J., Kar, S., Karpov, A., Kierzkowska-Pawlak, H., Kiss, G. G., Knyazheva, G., Koivisto, H., Koop, B., Kozulin, E., Kumar, D., Kurmanova, A., La Rana, G., Labate, L., Lamia, L., Lanza, E. G., Lay, J. A., Lattuada, D., Lenske, H., Limongi, M., Lipoglavsek, M., Lombardo, I., Mairani, A., Manetti, S., Marafini, M., Marcucci, L., Margarone, D., Martorana, N. S., Maunoury, L., Mauro, G. S., Mazzaglia, M., Mein, S., Mengoni, A., Milin, M., Mishra, B., Mou, L., Mrazek, J., Nadtochy, P., Naselli, E., Nicolai, P., Novikov, K., Oliva, A. A., Pagano, A., Pagano, E. V., Palmerini, S., Papa, M., Parodi, K., Patera, V., Pellumaj, J., Petrone, C., Piantelli, S., Pierroutsakou, D., Pinna, F., Politi, G., Postuma, I., Prajapati, P., Prada Moroni, P. G., Pupillo, G., Raffestin, D., Racz, R., Reidel, C.-A., Rifuggiato, D., Risitano, F., Rizzo, F., Roca Maza, X., Romano, S., Roso, L., Rotaru, F., Russo, A. D., Russotto, P., Saiko, V., Santonocito, D., Santopinto, E., Sarri, G., Sartirana, D., Schuy, C., Sgouros, O., Simonucci, S., Sorbello, G., Soukeras, V., Spartá, R., Spatafora, A., Stanoiu, M., Taioli, S., Tessonnier, T., Thirolf, P., Tognelli, E., Torresi, D., Torrisi, G., Trache, L., Traini, G., Trimarchi, M., Tsikata, S., Tumino, A., Tyczkowski, J., Yamaguchi, H., Vercesi, V., Vidana, I., Volpe, L., and Weber, U.

Published
2023
Full Text
View/download PDF

9. Self-consistent simulations of ECR-based charge breeders: evidence and impact of the plasmoid-halo structure

Author

Galatà, A., Gallo, C. S., Mascali, D., Torrisi, G., and Caldara, M.

Subjects
Physics - Plasma Physics, Physics - Computational Physics
Abstract

This paper discusses the capture of an ion beam in a magnetized plasma of an Electron Cyclotron Resonance Ion Source based Charge Breeder, as modelled by numerical simulations. As a relevant step forward with respect to previous works, here the capture is modeled by considering a plasma structure determined in a self-consisent way. The plasmoid-halo structure of the ECR plasma - that is consisting of a dense core (the plasmoid) surrounded by a rarefied halo - is further confirmed by the self-consistent calculations, having also some fine structures affected by the electromagnetic field distribution and by the magnetostatic field profile. The capture of Rb1+ ions has been investigated in details, vs. various plasma parameters, and then compared to experimental results., Comment: New results about a self-consistent modeling of magnetized plasmas

Published
2019

10. Experimental nuclear astrophysics in Italy

Author

Broggini, C., Straniero, O., Taiuti, M. G. F., de Angelis, G., Benzoni, G., Bruno, G. E., Bufalino, S., Cardella, G., Colonna, N., Contalbrigo, M., Cosentino, G., Cristallo, S., Curceanu, C., De Filippo, E., Depalo, R., Di Leva, A., Feliciello, A., Gammino, S., Galatà, A., La Cognata, M., Lea, R., Leoni, S., Lombardo, I., Manzari, V., Mascali, D., Massimi, C., Mengoni, A., Mengoni, D., Napoli, D. R., Palmerini, S., Piano, S., Pirrone, S., Pizzone, R. G., Politi, G., Prati, P., Prete, G., Russotto, P., Tagliente, G., and Urciuoli, G. M.

Subjects
Nuclear Experiment, Astrophysics - Solar and Stellar Astrophysics, Nuclear Theory
Abstract

Nuclear astrophysics, the union of nuclear physics and astronomy, went through an impressive expansion during the last twenty years. This could be achieved thanks to milestone improvements in astronomical observations, cross section measurements, powerful computer simulations and much refined stellar models. Italian groups are giving quite important contributions to every domain of nuclear astrophysics, sometimes being the leaders of worldwide unique experiments. In this paper we will discuss the astrophysical scenarios where nuclear astrophysics plays a key role and we will provide detailed descriptions of the present and future of the experiments on nuclear astrophysics which belong to the scientific programme of INFN (the National Institute for Nuclear Physics in Italy)., Comment: Added paragraphs 5.6 and 7.2. Paragraph 7.3 (former 7.2) revised. Accepted for publication in La Rivista del Nuovo Cimento

Published
2019
Full Text
View/download PDF

12. PANDORA a New Facility for Interdisciplinary In-Plasma Physics

Author

Mascali, D., Musumarra, A., Leone, F., Romano, F. P., Galatà, A., Gammino, S., and Massimi, C.

Subjects
Physics - Instrumentation and Detectors, Nuclear Experiment
Abstract

PANDORA, Plasmas for Astrophysics, Nuclear Decays Observation and Radiation for Archaeometry, is planned as a new facility based on a state-of-the-art plasma trap confining energetic plasma for performing interdisciplinary research in the fields of Nuclear Astrophysics, Astrophysics, Plasma Physics and Applications in Material Science and Archaeometry: the plasmas become the environment for measuring nuclear decays rates in stellar-like condition (such as 7Be decay and beta-decay involved in s-process nucleosynthesis), especially as a function of the ionization state of the plasma ions. These studies are of paramount importance for addressing several astrophysical issues in both stellar and primordial nucleosynthesis environment (e.g. determination of solar neutrino flux and 7Li Cosmological Problem), moreover the confined energetic plasma will be a unique light source for high performance stellar spectroscopy measurements in the visible, UV and X-ray domains, offering advancements in observational astronomy. As to magnetic fields, the experimental validation of theoretical first and second order Land\'e factors will drive the layout of next generation polarimetric units for the high resolution spectrograph of the future giant telescopes. In PANDORA new plasma heating methods will be explored, that will push forward the ion beam output, in terms of extracted intensity and charge states. More, advanced and optimized injection methods of ions in an ECR plasma will be experimented, with the aim at optimizing its capture efficiency. This will be applied to the ECR-based Charge Breeding technique, that will improve the performances of the SPES ISOL-facility currently installed at Laboratori Nazionali di Legnaro-INFN. Finally, PANDORA will be suitable for energy conversion, making the plasma as a source of electromagnetic radiation, for applications in Material Science and Archaeometry.

Published
2017
Full Text
View/download PDF

15. European effort to improve highly charged heavy ion beam capabilities with ECR ion sources (invited)

Author

Koivisto, H., primary, Andreev, A., additional, Asfari, Z., additional, Biri, S., additional, Celona, L., additional, Charbonnière, L., additional, Charpentier, C., additional, Dubois, M., additional, Filliger, M., additional, Galatà, A., additional, Gall, B., additional, Gallo, C. S., additional, Galonska, M., additional, Gammino, S., additional, Gerbershagen, A., additional, Jones, B.N., additional, Kalvas, T., additional, Kremers, H.R., additional, Kronholm, R., additional, Lang, R., additional, Lemagnen, F., additional, Leonardi, O., additional, Maimone, F., additional, Mascali, D., additional, Mäder, J., additional, Naselli, E., additional, Pidatella, A., additional, Rácz, R., additional, Thuillier, T., additional, Timonen, O., additional, Toivanen, V., additional, and Torrisi, G., additional

Published
2024
Full Text
View/download PDF

18. Conceptual design of first toroidal electron cyclotron resonance ion source and modeling of ion extraction from it

Author

Caliri, C., Mascali, D., and Volpe, F. A.

Subjects
Physics - Plasma Physics
Abstract

Electron Cyclotron Resonance Ion Sources (ECRIS) progressed to higher and higher ion currents and charge states by adopting stronger magnetic fields (beneficial for confinement) and proportionally higher ECR frequencies. Further improvements would require the attainment of "triple products" of density, temperature and confinement time comparable with major fusion experiments. For this, we propose a new, toroidal rather than linear, ECRIS geometry, which would at the same time improve confinement and make better use of the magnetic field. Ion extraction is more complicated than from a linear device, but feasible, as our modelling suggests: single-particle tracings showed successful extraction by at least two techniques, making use respectively of a magnetic extractor and of ExB drifts. Additional techniques are briefly discussed., Comment: 17 pages, 10 figures. Revised manuscript submitted to Nucl. Instrum. Meth. A

Published
2015

20. Status of DTT ECH Transmission Lines and Antennae

Author

Fanale, F., primary, Bruschi, A., additional, Garavaglia, S., additional, Moro, A., additional, Baiocchi, B., additional, Bonesso, M., additional, Braghin, F., additional, Busi, D., additional, Dima, R., additional, Fanelli, P., additional, Figini, L., additional, Gajetti, E., additional, Granucci, G., additional, Mascali, D., additional, Passarello, S., additional, Pepato, A., additional, Platania, P., additional, Rebesan, P., additional, Romano, A., additional, Salvitti, A., additional, Savoldi, L., additional, Simonetto, A., additional, Schmuck, S., additional, Torrisi, G., additional, and Turcato, M., additional

Published
2024
Full Text
View/download PDF

22. Prompt electrons driving ion acceleration and formation of a two temperatures plasma in nanosecond laser-ablation domain

Author

Mascali, D., Tudisco, S., Gambino, N., Pluchino, A., Anzalone, A., Musumeci, F., Rapisarda, A., and Spitaleri, A.

Subjects
Physics - Plasma Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

We present the results of an experiment on plasma generation via laser ablation at 10^12 W/cm^2 of power intensity and in a nanosecond domain. Prompt electrons emission and complex plasma plume fragmentation were simultaneously observed for the first time in this laser intensity regime, along with a double electron temperature inside the plasma bulk surviving for a long time to the plume expansion. 1D PIC simulations are in agreement with experimental data as long as the emission of initial prompt electrons is considered. This assumption results to be the key to explain all the other experimental evidences., Comment: 5 pages, 6 figures, Europhysics Letters in press

Published
2011
Full Text
View/download PDF

28. Pathophysiology of multiple sclerosis damage and repair: Linking cerebral hypoperfusion to the development of irreversible tissue loss in multiple sclerosis using magnetic resonance imaging

Author

Mascali, D., Villani, A., Chiarelli, A., Biondetti, E., Lipp, I., https://orcid.org/0000-0002-5644-2057, Digiovanni, A., Pozzilli, V., Caporale, A., Rispoli, M., Ajdinaj, P., D'Apolito, M., Grasso, E., Sensi, S., Murphy, K., Tomassini, V., and Wise, R.

Abstract

Background and purpose: Reduced cerebral perfusion has been observed in multiple sclerosis (MS) and may contribute to tissue loss both acutely and chronically. Here, we test the hypothesis that hypoperfusion occurs in MS and relates to the presence of irreversible tissue damage.Methods: In 91 patients with relapsing MS and 26 healthy controls (HC), gray matter (GM) cerebral blood flow (CBF) was assessed using pulsed arterial spin labeling. GM volume, T1 hypointense and T2 hyperintense lesion volumes (T1LV and T2LV, respectively), and the proportion of T2-hyperintense lesion volume that appears hypointense on T1-weighted magnetic resonance imaging (T1LV/T2LV) were quantified. GM CBF and GM volume were evaluated globally, as well as regionally, using an atlas-based approach.Results: Global GM CBF was lower in patients (56.9 ± 12.3 mL/100 g/min) than in HC (67.7 ± 10.0 mL/100 g/min; p < 0.001), a difference that was widespread across brain regions. Although total GM volume was comparable between groups, significant reductions were observed in a subset of subcortical structures. GM CBF negatively correlated with T1LV (r = -0.43, p = 0.0002) and T1LV/T2LV (r = -0.37, p = 0.0004), but not with T2LV.Conclusions: GM hypoperfusion occurs in MS and is associated with irreversible white matter damage, thus suggesting that cerebral hypoperfusion may actively contribute and possibly precede neurodegeneration by hampering tissue repair abilities in MS.

Published
2023

29. Progress and verification of DTT ICRF antenna simulation using COMSOL.

Author

Torrisi, G., Mascali, D., Mauro, G. S., Pidatella, A., Ceccuzzi, S., Baiocchi, B., Cardinali, A., Milanesio, D., Mirizzi, F., Ponti, C., Ravera, G. L., Tuccillo, A., and Vecchi, G.

Subjects
*ANTENNAS (Electronics), *ELECTRON cyclotron resonance sources, *ION sources, *INHOMOGENEOUS plasma, *LOW temperature plasmas
Abstract

In this paper we present the extension of a full-wave FEM model (COMSOL®+MATLAB®) - initially developed to compute the electromagnetic field in presence of the anisotropic inhomogeneous plasma of the Electron Cyclotron Resonance Ion Sources (ECRISs) [1] – to the Ion Cyclotron Range of Frequency (ICRF). The model - based on the full non-uniform dielectric tensor in "cold plasma" approximation - has been employed to study antenna geometries of increasing complexity. Various antenna types have been analyzed, starting from single flat strap up to the two straps of an antenna option considered for the Divertor Tokamak Test facility (DTT) [2]. The results have been compared, cross-checked and validated with a simpler COMSOL-based tool [3] and with the TOPICA code [4]. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

30. A self-resonant plug-in IC antenna for DTT.

Author

Milanesio, D., Vecchi, G., Baiocchi, B., Cardinali, A., Ceccuzzi, S., Huertas, D. L. Galindo, Mascali, D., Mauro, G. S., Mirizzi, F., Pidatella, A., Ponti, C., Ravera, G. L., Torrisi, G., and Tuccillo, A. A.

Subjects
ANTENNAS (Electronics), NUCLEAR fusion, IMPEDANCE matching, REFLECTANCE, ELECTRIC fields
Abstract

Ion Cyclotron Range of Frequencies (ICRF) antennas are adopted in most of the existing nuclear fusion experiments. Their capability to couple high power to the plasma is known to be limited by a high input reflection coefficient and sometimes by high electric fields within the antenna box and immediately in front of it. In this work, we introduce a self-resonant IC strap antenna that can reach very good impedance matching, i.e. with very small power reflected back to the feeding lines; it is designed for the incoming Divertor Tokamak Test (DTT) experiment [1]. The antenna reaches matching for a bandwidth limited by the electrical size of the box, that is not compatible with operational planned frequency interval. Hence, we also propose an all-metal frequency structural tuning system; this allows launcher to be operated in frequency intervals of practical interest, e.g. from 60MHz to 90MHz. The overall antenna is a two-strap plug-in launcher that fits within DTT equatorial duct. After introducing the antenna concept, we describe a few optimization steps carried on through numerical codes, with a specific focus on the critical aspects mentioned above. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

31. The ICRF antenna of DTT: Design status and perspectives.

Author

Ceccuzzi, S., Baiocchi, B., Cardinali, A., Di Gironimo, G., Granucci, G., Liuzza, D., Mascali, D., Mauro, G. S., Milanesio, D., Mirizzi, F., Pidatella, A., Piras, S., Ponti, C., Ravera, G. L., Schettini, G., Torrisi, G., Tuccillo, A. A., and Vecchi, G.

Subjects
ANTENNA design, ANTENNAS (Electronics), TESTING laboratories, TOKAMAKS, RADIO frequency
Abstract

The basis of design for the Ion Cyclotron Range of Frequency (ICRF) antennas of the Divertor Tokamak Test facility (DTT) is defined and the most suitable design solutions abiding by such requirements are shown. DTT will be equipped with one, two or three ICRF modules – the final choice to be taken during the first years of operations – and each module will have two antennas. Each antenna has to reliably couple a radiofrequency (RF) power ≥1.5 MW in the range 60÷90 MHz to the single-null, 6 T, 5.5 MA, DTT scenario and allow for remote (dis)assembling and maintenance operations of its plasma-facing components. Most documented antenna concepts are considered and a large set of alternatives, based on toroidal arrays of two, three or four straps with different shapes and constraints, is quantitatively assessed in terms of RF performances. Two most promising candidates are identified: the one, selected to access a detailed design phase, relies on traditional radiating elements, the other is an innovative concept requiring some R&D. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

37. Study for a tangential dispersion interferometer/polarimeter for DTT

Author

Filippi, F., primary, Fiorucci, D., additional, Fassina, A., additional, Giudicotti, L., additional, Mazzotta, C., additional, Rocchi, G., additional, Rossi, R., additional, Terranova, D., additional, Tudisco, O., additional, Andreoli, P., additional, Cipriani, M., additional, Consoli, F., additional, Gaudio, P., additional, Gelfusa, M., additional, Innocente, P., additional, Mauro, G., additional, Mascali, D., additional, Naselli, E., additional, Orsitto, F.P., additional, and Torrisi, G., additional

Published
2022
Full Text
View/download PDF

38. Numerical simulations on laser absorption enhancement in hybrid metallo-dielectric nanostructured targets for future nuclear astrophysics experiments

Author

Pirruccio, G, Rocco, D, De Angelis, C, Sorbello, G, Mascali, D, Torrisi, G, Frassetto, M, Malferrari, L, Odorici, F, Altana, C, Lanzalone, G, Muoio, A, Tudisco, S, Benocci, R, Gorini, G, Palladino, L, Pirruccio G., Rocco D., De Angelis C., Sorbello G., Mascali D., Torrisi G., Frassetto M., Malferrari L., Odorici F., Altana C., Lanzalone G., Muoio A., Tudisco S., Benocci R., Gorini G., Palladino L., Pirruccio, G, Rocco, D, De Angelis, C, Sorbello, G, Mascali, D, Torrisi, G, Frassetto, M, Malferrari, L, Odorici, F, Altana, C, Lanzalone, G, Muoio, A, Tudisco, S, Benocci, R, Gorini, G, Palladino, L, Pirruccio G., Rocco D., De Angelis C., Sorbello G., Mascali D., Torrisi G., Frassetto M., Malferrari L., Odorici F., Altana C., Lanzalone G., Muoio A., Tudisco S., Benocci R., Gorini G., and Palladino L.

Abstract

The linear electromagnetic interaction between innovative hybrid metallo-dielectric nanostructured targets and laser in visible and IR range is investigated through numerical simulations. The obtained results rely on the optimization of a target based on metallic nanowires (NWs) to enhance light absorption in the visible range of the electromagnetic spectrum. The NWs are grown within the ordered nanoholes of an alumina substrate, thus, forming a plasmonic lattice with triangular symmetry. The remaining volume of the nanoholes on top of the NWs is sealed with a transparent layer of aluminum oxide that is suitable to be chemically modified for containing about 25% of deuterium atoms. The study presented here is carried out within the framework of a scientific program named PLANETA (Plasmonic Laser Absorption on Nano-Engineered Targets) aiming at investigating new laser-matter interaction schemes in the ns domain and for nuclear fusion purposes, involving especially the D-D reaction.

Published
2020

43. Design and first operations of a ECR based He source at INFN-LNS

Author

Mazzaglia, M., primary, Amato, A.S., additional, Battiato, G., additional, Calabrese, G., additional, Celona, L., additional, Cosentino, L. G., additional, Dantoni, L., additional, Gammino, S., additional, Manno, G., additional, Marletta, S., additional, Massara, A., additional, Maugeri, A., additional, Mauro, G. S., additional, Miraglia, A., additional, Naselli, E., additional, Passarello, S., additional, Pidatella, A., additional, Piscopo, M., additional, Russo, A. D., additional, Seminara, A., additional, Siliato, D., additional, Torrisi, G., additional, Tudisco, D., additional, Vecchio, G., additional, Vinciguerra, S., additional, Mascali, D., additional, and Galatá, A., additional

Published
2022
Full Text
View/download PDF

47. Advances in the DTT poloidal interferometer/polarimeter design

Author

Fiorucci, D., primary, Fassina, A., additional, Filippi, F., additional, Mazzotta, C., additional, Rocchi, G., additional, Rossi, R., additional, Terranova, D., additional, Tudisco, O., additional, Andreoli, P., additional, Cipriani, M., additional, Consoli, F., additional, Gaudio, P., additional, Gelfusa, M., additional, Giudicotti, L., additional, Innocente, P., additional, Belpane, A., additional, Mauro, G., additional, Mascali, D., additional, Naselli, E., additional, Orsitto, F.P., additional, and Torrisi, G., additional

Published
2022
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results