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1. Redox behavior of degassing magmas: critical review and comparison of glass-based oxybarometers with application to Etna volcano

Author

Moretti, Roberto

Subjects
Melt/glass inclusions, Oxygen fugacity, Sulfur speciation, Iron amphoteric behavior, Polymerization, Etna, Melt dehydration, Geophysics. Cosmic physics, QC801-809, Chemistry, QD1-999, Geology, QE1-996.5
Abstract

Glass/melt inclusions are repositories of polybaric magma physiochemical interactions. They are fundamental to retrieve the conditions of fluid saturation and magma oxidation state. The latter is usually reported as oxygen fugacity, which is a key thermodynamic variable: involved in such polybaric physiochemical interactions, $f\mathrm{O}_{2}$ affects melt saturation properties and fixes the speciation of fluids discharged by magmatic systems either up to volcanic craters or feeding hydrothermal systems. Several oxybarometers have been proposed, based on iron and sulfur oxidation states. In this study I summarize their main features and show their performances for 1-bar and fluid-saturated andesitic and basaltic melts. I then show that any assessment of magma redox behavior that does not account for the melt reactivity, driven by melt polymerization and the so-called oxygen electrode in association with iron or sulfur redox couples, may fail in determining the actual contribution of the composition to the observed variations of iron and sulfur oxidation states, resulting in potentially biased $f\mathrm{O}_{2}$ estimates. In the case of Etna volcano, by using a well-established ionic-polymeric approach we show that a major control is the dehydration taking place during magmatic differentiation and magma ascent. Dehydration determines a slight iron oxidation down to around 2.5 wt% in dissolved water, but further dehydration taking place up to the surface results in iron reduction. This dual behavior, related to a change of trivalent iron speciation, is reproduced by reactive ionic-polymeric approaches and for the Etna basalt it is predicted also for constant $f\mathrm{O}_{2}$. Such a modulation of the redox state due to water dissolution cannot be reproduced by empirical formulations.

Published
2022
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2. Nonlinear Behavior of Josephson Traveling Wave Parametric Amplifiers

Author

Guarcello, Claudio, Ahrens, Felix, Avallone, Guerino, Barone, Carlo, Borghesi, Matteo, Callegaro, Luca, Carapella, Giovanni, Caricato, Anna Paola, Carusotto, Iacopo, Cian, Alessandro, D'Elia, Alessandro, Di Gioacchino, Daniele, Enrico, Emanuele, Falferi, Paolo, Fasolo, Luca, Faverzani, Marco, Ferri, Elena, Filatrella, Giovanni, Gatti, Claudio, Giachero, Andrea, Giubertoni, Damiano, Granata, Veronica, Leo, Angelo, Labranca, Danilo, Ligi, Carlo, Maccarrone, Giovanni, Mantegazzini, Federica, Margesin, Benno, Maruccio, Giuseppe, Mezzena, Renato, Monteduro, Anna Grazia, Moretti, Roberto, Nucciotti, Angelo, Oberto, Luca, Origo, Luca, Komnang, Alex Stephane Piedjou, Pagano, Sergio, Piersanti, Luca, Rettaroli, Alessio, Rizzato, Silvia, Tocci, Simone, Vinante, Andrea, and Zannoni, Mario

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Recent advancements in quantum technologies and advanced detection experiments have underscored the pressing need for the detection of exceedingly weak signals within the microwave frequency spectrum. Addressing this challenge, the Josephson Traveling Wave Parametric Amplifier (JTWPA) has been proposed as a cryogenic front-end amplifier capable of approaching the quantum noise limit while providing a relevant bandwidth. This research is centered on a comprehensive numerical investigation of the JTWPA, without resorting to simplifications regarding the nonlinearity of the essential components. Specifically, this study focuses on a thorough examination of the system, characterized by coupled nonlinear differential equations representing all components of the device. Proper input and output signals at the device's boundaries are considered. The analysis of the output signals undergoing the parametric amplification process involves a detailed exploration of phase-space dynamics and Fourier spectral analysis of the output voltage. This study is conducted while considering the parameters ruling the response of the device under pump and signal excitations. In addition to the expected signal amplification, the findings reveal that the nonlinear nature of the system can give rise to unforeseen phenomena, depending on the system's operational conditions, which include: the generation of pump tone harmonics, modulation of the signal gain, and incommensurate frequency generation-effects that are not easily accommodated by simplistic linearized approaches, Comment: 5 pages, 4 figures, DARTWARS project - INFN (Italy)

Published
2024
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3. Development of KI-TWPAs for the DARTWARS project

Author

Ahrens, Felix, Ferri, Elena, Avallone, Guerino, Barone, Carlo, Borghesi, Matteo, Callegaro, Luca, Carapella, Giovanni, Caricato, Anna Paola, Carusotto, Iacopo, Cian, Alessandro, D'Elia, Alessandro, Di Gioacchino, Daniele, Enrico, Emanuele, Falferi, Paolo, Fasolo, Luca, Faverzani, Marco, Filatrella, Giovanni, Gatti, Claudio, Giachero, Andrea, Giubertoni, Damiano, Granata, Veronica, Guarcello, Claudio, Labranca, Danilo, Leo, Angelo, Ligi, Carlo, Maccarrone, Giovanni, Mantegazzini, Federica, Margesin, Benno, Maruccio, Giuseppe, Mezzena, Renato, Monteduro, Anna Grazia, Moretti, Roberto, Nucciotti, Angelo, Oberto, Luca, Origo, Luca, Pagano, Sergio, Piedjou, Alex Stephane, Piersanti, Luca, Rettaroli, Alessio, Rizzato, Silvia, Tocci, Simone, Vinante, Andrea, and Zannoni, Mario

Subjects
Quantum Physics, Physics - Applied Physics
Abstract

Noise at the quantum limit over a broad bandwidth is a fundamental requirement for future cryogenic experiments for neutrino mass measurements, dark matter searches and Cosmic Microwave Background (CMB) measurements as well as for fast high-fidelity read-out of superconducting qubits. In the last years, Josephson Parametric Amplifiers (JPA) have demonstrated noise levels close to the quantum limit, but due to their narrow bandwidth, only few detectors or qubits per line can be read out in parallel. An alternative and innovative solution is based on superconducting parametric amplification exploiting the travelling-wave concept. Within the DARTWARS (Detector Array Readout with Travelling Wave AmplifieRS) project, we develop Kinetic Inductance Travelling-Wave Parametric Amplifiers (KI-TWPAs) for low temperature detectors and qubit read-out. KI-TWPAs are typically operated in a threewave mixing (3WM) mode and are characterised by a high gain, a high saturation power, a large amplification bandwidth and nearly quantum limited noise performance. The goal of the DARTWARS project is to optimise the KI-TWPA design, explore new materials, and investigate alternative fabrication processes in order to enhance the overall performance of the amplifier. In this contribution we present the advancements made by the DARTWARS collaboration to produce a working prototype of a KI-TWPA, from the fabrication to the characterisation.

Published
2024
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4. Broadband parametric amplification in DARTWARS

Author

Faverzani, Marco, Campana, Pietro, Carobene, Rodolfo, Gobbo, Marco, Ahrens, Felix, Avallone, Guerino, Barone, Carlo, Borghesi, Matteo, Capelli, Silvia, Carapella, Giovanni, Caricato, Anna Paola, Callegaro, Luca, Carusotto, Iacopo, Celotto, Andrea, Cian, Alessandro, D'Elia, Alessandro, Di Gioacchino, Daniele, Enrico, Emanuele, Falferi, Paolo, Fasolo, Luca, Ferri, Elena, Filatrella, Giovanni, Gatti, Claudio, Giubertoni, Damiano, Granata, Veronica, Guarcello, Claudio, Irace, Alessandro, Labranca, Danilo, Leo, Angelo, Ligi, Carlo, Maccarrone, Giovanni, Mantegazzini, Federica, Margesin, Benno, Maruccio, Giuseppe, Mezzena, Renato, Moneduro, Anna Grazia, Moretti, Roberto, Nucciotti, Angelo, Oberto, Luca, Origo, Luca, Pagano, Sergio, Komnang, Alex Stephane Piedjou, Piersanti, Luca, Rettaroli, Alessio, Rizzato, Silvia, Tocci, Simone, Vinante, Andrea, Zannoni, Mario, and Giachero, Andrea

Subjects
Quantum Physics
Abstract

Superconducting parametric amplifiers offer the capability to amplify feeble signals with extremely low levels of added noise, potentially reaching quantum-limited amplification. This characteristic makes them essential components in the realm of high-fidelity quantum computing and serves to propel advancements in the field of quantum sensing. In particular, Traveling-Wave Parametric Amplifiers (TWPAs) may be especially suitable for practical applications due to their multi-Gigahertz amplification bandwidth, a feature lacking in Josephson Parametric Amplifiers (JPAs), despite the latter being a more established technology. This paper presents recent developments of the DARTWARS (Detector Array Readout with Traveling Wave AmplifieRS) project, focusing on the latest prototypes of Kinetic Inductance TWPAs (KITWPAs). The project aims to develop a KITWPA capable of achieving $20\,$ dB of amplification. To enhance the production yield, the first prototypes were fabricated with half the length and expected gain of the final device. In this paper, we present the results of the characterization of one of the half-length prototypes. The measurements revealed an average amplification of approximately $9\,$dB across a $2\,$GHz bandwidth for a KITWPA spanning $17\,$mm in length.

Published
2024

5. High kinetic inductance NbTiN films for quantum limited travelling wave parametric amplifiers

Author

Mantegazzini, Federica, Ahrens, Felix, Borghesi, Matteo, Falferi, Paolo, Fasolo, Luca, Faverzani, Marco, Ferri, Elena, Labranca, Danilo, Margesin, Benno, Mezzena, Renato, Moretti, Roberto, Nucciotti, Angelo, Origo, Luca, Vinante, Andrea, Zannoni, Mario, and Giachero, Andrea

Subjects
Physics - Applied Physics, Quantum Physics
Abstract

A wide-bandwidth and low-noise amplification chain in the microwave regime is crucial for the efficient read-out of quantum systems based on superconducting detectors, such as Microwave Kinetic Inductance Detectors (MKIDs), Transition Edge Sensors (TESs), Magnetic Microcalorimeters (MMCs), and RF cavities, as well as qubits. Kinetic Inductance Travelling Wave Parametric Amplifiers (KI-TWPAs) operated in a three-wave mixing fashion have demonstrated exceptional dynamic range and low-noise performance, approaching the quantum limit. These amplifiers can be fabricated using a single layer of a high kinetic inductance film as weakly dispersive artificial transmission lines, with the ability to control the phase-matched bandwidth through dispersion engineering. In this study, we present the optimisation of the rf sputter-deposition process of NbTiN films using a Nb80%T20 target, with the goal of achieving precise control over film characteristics, resulting in high kinetic inductance while maintaining a high transition temperature. The parameter landscape related to the different sputtering conditions, such as pressure, power, and nitrogen flow, has been explored and the film thickness has been used as a fine-tuning parameter to adjust the properties of the final NbTiN films used for the fabrication of KI-TWPAs. As a final result, we have obtained a NbTiN film with a kinetic inductance of 8.5 pH/sq which we have exploited to fabricate KI-TWPA prototype devices, showing promising amplification performance.

Published
2023

6. Design and simulation of a transmon qubit chip for Axion detection

Author

Moretti, Roberto, Corti, Hervè Atsè, Labranca, Danilo, Ahrens, Felix, Avallone, Guerino, Babusci, Danilo, Banchi, Leonardo, Barone, Carlo, Beretta, Matteo Mario, Borghesi, Matteo, Buonomo, Bruno, Calore, Enrico, Carapella, Giovanni, Chiarello, Fabio, Cian, Alessandro, Cidronali, Alessando, Costa, Filippo, Cuccoli, Alessandro, D'Elia, Alessandro, Di Gioacchino, Daniele, Di Pascoli, Stefano, Falferi, Paolo, Fanciulli, Marco, Faverzani, Marco, Felici, Giulietto, Ferri, Elena, Filatrella, Giovanni, Foggetta, Luca Gennaro, Gatti, Claudio, Giachero, Andrea, Giazotto, Francesco, Giubertoni, Damiano, Granata, Veronica, Guarcello, Claudio, Lamanna, Gianluca, Ligi, Carlo, Maccarrone, Giovanni, Macucci, Massimo, Manara, Giuliano, Mantegazzini, Federica, Marconcini, Paolo, Margesin, Benno, Mattioli, Francesco, Miola, Andrea, Nucciotti, Angelo, Origo, Luca, Pagano, Sergio, Paolucci, Federico, Piersanti, Luca, Rettaroli, Alessio, Sanguinetti, Stefano, Schifano, Sebastiano Fabio, Spagnolo, Paolo, Tocci, Simone, Toncelli, Alessandra, Torrioli, Guido, and Vinante, Andrea

Subjects
Quantum Physics
Abstract

Quantum Sensing is a rapidly expanding research field that finds one of its applications in Fundamental Physics, as the search for Dark Matter. Devices based on superconducting qubits have already been successfully applied in detecting few-GHz single photons via Quantum Non-Demolition measurement (QND). This technique allows us to perform repeatable measurements, bringing remarkable sensitivity improvements and dark count rate suppression in experiments based on high-precision microwave photon detection, such as for Axions and Dark Photons search. In this context, the INFN Qub-IT project goal is to realize an itinerant single-photon counter based on superconducting qubits that will exploit QND for enhancing Axion search experiments. In this study, we present Qub-IT's status towards the realization of its first superconducting qubit device, illustrating design and simulation procedures and the characterization of fabricated Coplanar Waveguide Resonators (CPWs) for readout. We match target qubit parameters and assess a few-percent level agreement between lumped and distributed element simulation models. We reach a maximum internal quality factor of 9.2x10^5 for -92 dBm on-chip readout power.

Published
2023
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7. Assessment of few-hits machine learning classification algorithms for low energy physics in liquid argon detectors

Author

Moretti, Roberto, Rossi, Marco, Biassoni, Matteo, Giachero, Andrea, Grossi, Michele, Guffanti, Daniele, Labranca, Danilo, Terranova, Francesco, and Vallecorsa, Sofia

Subjects
Physics - Instrumentation and Detectors, Computer Science - Machine Learning, Physics - Data Analysis, Statistics and Probability
Abstract

The physics potential of massive liquid argon TPCs in the low-energy regime is still to be fully reaped because few-hits events encode information that can hardly be exploited by conventional classification algorithms. Machine learning (ML) techniques give their best in these types of classification problems. In this paper, we evaluate their performance against conventional (deterministic) algorithms. We demonstrate that both Convolutional Neural Networks (CNN) and Transformer-Encoder methods outperform deterministic algorithms in one of the most challenging classification problems of low-energy physics (single- versus double-beta events). We discuss the advantages and pitfalls of Transformer-Encoder methods versus CNN and employ these methods to optimize the detector parameters, with an emphasis on the DUNE Phase II detectors ("Module of Opportunity").

Published
2023

9. Correction to: The European Volcano Observatories and their use of the aviation colour code system

Author

Barsotti, Sara, Scollo, Simona, Macedonio, Giovanni, Felpeto, Alicia, Peltier, Aline, Vougioukalakis, Georgios, de Zeeuw van Dalfsen, Elske, Ottemöller, Lars, Pimentel, Adriano, Komorowski, Jean-Christophe, Loughlin, Susan, Carmo, Rita, Coltelli, Mauro, Corbeau, Jordane, Vye-Brown, Charlotte, Di Vito, Mauro, de Chabalier, Jean-Bernard, Ferreira, Teresa, Fontaine, Fabrice R., Lemarchand, Arnaud, Marques, Rui, Medeiros, Joana, Moretti, Roberto, Pfeffer, Melissa Anne, Saurel, Jean-Marie, Vlastelic, Ivan, Vogfjörd, Kristín, Engwell, Samantha, and Salerno, Giuseppe

Published
2024
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11. The European Volcano Observatories and their use of the aviation colour code system

Author

Barsotti, Sara, Scollo, Simona, Macedonio, Giovanni, Felpeto, Alicia, Peltier, Aline, Vougioukalakis, Georgios, de Zeeuw van Dalfsen, Elske, Ottemöller, Lars, Pimentel, Adriano, Komorowski, Jean-Christophe, Loughlin, Susan, Carmo, Rita, Coltelli, Mauro, Corbeau, Jordane, Vye-Brown, Charlotte, Di Vito, Mauro, de Chabalier, Jean-Bernard, Ferreira, Teresa, Fontaine, Fabrice R., Lemarchand, Arnaud, Marques, Rui, Medeiros, Joana, Moretti, Roberto, Pfeffer, Melissa Anne, Saurel, Jean-Marie, Vlastelic, Ivan, Vogfjörd, Kristín, Engwell, Samantha, and Salerno, Giuseppe

Published
2024
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15. A multi-decadal view of the heat and mass budget of a volcano in unrest: La Soufri\`ere de Guadeloupe (French West Indies)

Author

Jessop, David E., Moune, Séverine, Moretti, Roberto, Gibert, Dominique, Komorowski, Jean-Christophe, Robert, Vincent, Heap, Michael J., Bosson, Alexis, Bonifacie, Magali, Deroussi, Sébastien, Dessert, Céline, Rosas-Carbajal, Marina, Lemarchand, Arnaud, and Burtin, Arnaud

Subjects
Physics - Geophysics
Abstract

Particularly in the presence of a hydrothermal system, many volcanoes output large quantities of heat through the transport of water from deep within the edifice to the surface. Thus, heat flux is a prime tool for evaluating volcanic activity and unrest. We review the volcanic unrest at La Soufri\`ere de Guadeloupe (French West Indies) using an airborne thermal camera survey, and in-situ measurements of temperature and flow rate through temperature probes, Pitot-tube and MultiGAS measurements. We deduce mass and heat fluxes for the fumarolic, ground and thermal spring outputs and follow these over a period spanning 2000--2020. Our results are compared with published data and we performed a retrospective analysis of the temporal variations in heat flux over this period using the literature data. We find that the heat emitted by the volcano is 36.5 +/- 7.9 MW, of which the fumarolic heat flux is dominant at 28.3 +/- 6.8 MW. Given a total heated area of 26780 m2, this equates to a heat flux density of 627 +/- 94 W/m2, which is amongst the highest established for worldwide volcanoes with hydrothermal systems, particularly for dome volcanoes. A major change at La Soufri\`ere de Guadeloupe, however, is the development of a widespread region of ground heating at the summit where heat output has increased from 0.2 +/- 0.1 MW in 2010 to 5.7 +/- 0.9 MW in 2020. This change is concurrent with accelerating unrest at the volcano, and the emergence of two new high-flux fumaroles in recent years. Our findings highlight the importance of continued and enhanced surveillance and research strategies at La Soufri\`ere de Guadeloupe, the results of which can be used to better understand hydrothermal volcanism the world over.

Published
2020
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20. Mafic magma feeds degassing unrest at Vulcano Island, Italy

Author

Aiuppa, Alessandro, Bitetto, Marcello, Calabrese, Sergio, Delle Donne, Dario, Lages, Joao, La Monica, Francesco Paolo, Chiodini, Giovanni, Tamburello, Giancarlo, Cotterill, Adam, Fulignati, Paolo, Gioncada, Anna, Liu, Emma J., Moretti, Roberto, and Pistolesi, Marco

Published
2022
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27. Impact of data transfer between treatment planning systems on dosimetric parameters

Author

Meffe, Guenda, primary, Votta, Claudio, additional, Turco, Gabriele, additional, Chillè, Elena, additional, Nardini, Matteo, additional, Romano, Angela, additional, Chiloiro, Giuditta, additional, Panza, Giulia, additional, Galetto, Matteo, additional, Capotosti, Amedeo, additional, Moretti, Roberto, additional, Gambacorta, Maria Antonietta, additional, Boldrini, Luca, additional, Indovina, Luca, additional, and Placidi, Lorenzo, additional

Published
2024
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31. Nonlinear Behavior of Josephson Traveling Wave Parametric Amplifiers

Author

Guarcello, C, Ahrens, F, Avallone, G, Barone, C, Borghesi, M, Callegaro, L, Carapella, G, Caricato, A, Carusotto, I, Cian, A, D'Elia, A, Gioacchino, D, Enrico, E, Falferi, P, Fasolo, L, Faverzani, M, Ferri, E, Filatrella, G, Gatti, C, Giachero, A, Giubertoni, D, Granata, V, Leo, A, Labranca, D, Ligi, C, Maccarrone, G, Mantegazzini, F, Margesin, B, Maruccio, G, Mezzena, R, Monteduro, A, Moretti, R, Nucciotti, A, Oberto, L, Origo, L, Komnang, A, Pagano, S, Piersanti, L, Rettaroli, A, Rizzato, S, Tocci, S, Vinante, A, Zannoni, M, Guarcello, Claudio, Ahrens, Felix, Avallone, Guerino, Barone, Carlo, Borghesi, Matteo, Callegaro, Luca, Carapella, Giovanni, Caricato, Anna Paola, Carusotto, Iacopo, Cian, Alessandro, D'Elia, Alessandro, Gioacchino, Daniele Di, Enrico, Emanuele, Falferi, Paolo, Fasolo, Luca, Faverzani, Marco, Ferri, Elena, Filatrella, Giovanni, Gatti, Claudio, Giachero, Andrea, Giubertoni, Damiano, Granata, Veronica, Leo, Angelo, Labranca, Danilo, Ligi, Carlo, Maccarrone, Giovanni, Mantegazzini, Federica, Margesin, Benno, Maruccio, Giuseppe, Mezzena, Renato, Monteduro, Anna Grazia, Moretti, Roberto, Nucciotti, Angelo, Oberto, Luca, Origo, Luca, Komnang, Alex Stephane Piedjou, Pagano, Sergio, Piersanti, Luca, Rettaroli, Alessio, Rizzato, Silvia, Tocci, Simone, Vinante, Andrea, Zannoni, Mario, Guarcello, C, Ahrens, F, Avallone, G, Barone, C, Borghesi, M, Callegaro, L, Carapella, G, Caricato, A, Carusotto, I, Cian, A, D'Elia, A, Gioacchino, D, Enrico, E, Falferi, P, Fasolo, L, Faverzani, M, Ferri, E, Filatrella, G, Gatti, C, Giachero, A, Giubertoni, D, Granata, V, Leo, A, Labranca, D, Ligi, C, Maccarrone, G, Mantegazzini, F, Margesin, B, Maruccio, G, Mezzena, R, Monteduro, A, Moretti, R, Nucciotti, A, Oberto, L, Origo, L, Komnang, A, Pagano, S, Piersanti, L, Rettaroli, A, Rizzato, S, Tocci, S, Vinante, A, Zannoni, M, Guarcello, Claudio, Ahrens, Felix, Avallone, Guerino, Barone, Carlo, Borghesi, Matteo, Callegaro, Luca, Carapella, Giovanni, Caricato, Anna Paola, Carusotto, Iacopo, Cian, Alessandro, D'Elia, Alessandro, Gioacchino, Daniele Di, Enrico, Emanuele, Falferi, Paolo, Fasolo, Luca, Faverzani, Marco, Ferri, Elena, Filatrella, Giovanni, Gatti, Claudio, Giachero, Andrea, Giubertoni, Damiano, Granata, Veronica, Leo, Angelo, Labranca, Danilo, Ligi, Carlo, Maccarrone, Giovanni, Mantegazzini, Federica, Margesin, Benno, Maruccio, Giuseppe, Mezzena, Renato, Monteduro, Anna Grazia, Moretti, Roberto, Nucciotti, Angelo, Oberto, Luca, Origo, Luca, Komnang, Alex Stephane Piedjou, Pagano, Sergio, Piersanti, Luca, Rettaroli, Alessio, Rizzato, Silvia, Tocci, Simone, Vinante, Andrea, and Zannoni, Mario

Abstract

Recent advancements in quantum technologies and advanced detection experiments have underscored the pressing need for the detection of exceedingly weak signals within the microwave frequency spectrum. Addressing this challenge, the Josephson Traveling Wave Parametric Amplifier (JTWPA) has been proposed as a cryogenic front-end amplifier capable of approaching the quantum noise limit while providing a relevant bandwidth. This research is centered on a comprehensive numerical investigation of the JTWPA, without resorting to simplifications regarding the nonlinearity of the essential components. Specifically, this study focuses on a thorough examination of the system, characterized by coupled nonlinear differential equations representing all components of the device. Proper input and output signals at the device's boundaries are considered. The analysis of the output signals undergoing the parametric amplification process involves a detailed exploration of phase-space dynamics and Fourier spectral analysis of the output voltage. This study is conducted while considering the parameters ruling the response of the device under pump and signal excitations. In addition to the expected signal amplification, the findings reveal that the nonlinear nature of the system can give rise to unforeseen phenomena, depending on the system's operational conditions, which include: the generation of pump tone harmonics, modulation of the signal gain, and incommensurate frequency generation—effects that are not easily accommodated by simplistic linearized approaches. IEEE

Published
2024

33. The 2018 unrest phase at La Soufrière of Guadeloupe (French West Indies) andesitic volcano: Scrutiny of a failed but prodromal phreatic eruption

Author

Moretti, Roberto, Komorowski, Jean-Christophe, Ucciani, Guillaume, Moune, Séverine, Jessop, David, de Chabalier, Jean-Bernard, Beauducel, François, Bonifacie, Magali, Burtin, Arnaud, Vallée, Martin, Deroussi, Sebastien, Robert, Vincent, Gibert, Dominique, Didier, Tristan, Kitou, Thierry, Feuillet, Nathalie, Allard, Patrick, Tamburello, Giancarlo, Shreve, Tara, Saurel, Jean-Marie, Lemarchand, Arnaud, Rosas-Carbajal, Marina, Agrinier, Pierre, Le Friant, Anne, and Chaussidon, Marc

Published
2020
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34. Nonlinear Behavior of Josephson Traveling Wave Parametric Amplifiers

Author

Guarcello, Claudio, primary, Ahrens, Felix, additional, Avallone, Guerino, additional, Barone, Carlo, additional, Borghesi, Matteo, additional, Callegaro, Luca, additional, Carapella, Giovanni, additional, Caricato, Anna Paola, additional, Carusotto, Iacopo, additional, Cian, Alessandro, additional, D'Elia, Alessandro, additional, Gioacchino, Daniele Di, additional, Enrico, Emanuele, additional, Falferi, Paolo, additional, Fasolo, Luca, additional, Faverzani, Marco, additional, Ferri, Elena, additional, Filatrella, Giovanni, additional, Gatti, Claudio, additional, Giachero, Andrea, additional, Giubertoni, Damiano, additional, Granata, Veronica, additional, Leo, Angelo, additional, Labranca, Danilo, additional, Ligi, Carlo, additional, Maccarrone, Giovanni, additional, Mantegazzini, Federica, additional, Margesin, Benno, additional, Maruccio, Giuseppe, additional, Mezzena, Renato, additional, Monteduro, Anna Grazia, additional, Moretti, Roberto, additional, Nucciotti, Angelo, additional, Oberto, Luca, additional, Origo, Luca, additional, Komnang, Alex Stephane Piedjou, additional, Pagano, Sergio, additional, Piersanti, Luca, additional, Rettaroli, Alessio, additional, Rizzato, Silvia, additional, Tocci, Simone, additional, Vinante, Andrea, additional, and Zannoni, Mario, additional

Published
2024
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40. Why we should care about gas pockets in online adaptive MRgRT: a dosimetric evaluation

Author

Nardini, Matteo, primary, Meffe, Guenda, additional, Galetto, Matteo, additional, Boldrini, Luca, additional, Chiloiro, Giuditta, additional, Romano, Angela, additional, Panza, Giulia, additional, Bevacqua, Andrea, additional, Turco, Gabriele, additional, Votta, Claudio, additional, Capotosti, Amedeo, additional, Moretti, Roberto, additional, Gambacorta, Maria Antonietta, additional, Indovina, Luca, additional, and Placidi, Lorenzo, additional

Published
2023
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43. Contributors

Author

Belkin, Harvey E., primary, Bodnar, Robert J., additional, Caccavale, Mauro, additional, Cannatelli, Claudia, additional, Carroll, Michael R., additional, Corradino, Marta, additional, Costanzo, Maria Rosaria, additional, Natale, Giuseppe De, additional, De Vivo, Benedetto, additional, Di Lascio, Massimo, additional, Esposito, Rosario, additional, Esposito, Giuseppe, additional, Fedele, Alessandro, additional, Fowler, Sarah Jane, additional, Gidwitz, Tom, additional, Kilburn, Christopher R.J., additional, Lima, Annamaria, additional, Macchiavelli, Chiara, additional, Matano, Fabio, additional, Milia, Alfonsa, additional, Molisso, Flavia, additional, Moretti, Roberto, additional, Nunziata, Concettina, additional, Panza, Giuliano Francesco, additional, Passaro, Salvatore, additional, Peccerillo, Angelo, additional, Penza, Giulia, additional, Pepe, Fabrizio, additional, Pierantoni, Pietro Paolo, additional, Rolandi, Giuseppe, additional, Rolandi, Roberto, additional, Ruberti, Daniela, additional, Sacchi, Marco, additional, Schettino, Antonio, additional, Somma, Renato, additional, Spera, Frank J., additional, Spiess, Volkhard, additional, Stabile, Paola, additional, Steinmann, Lena, additional, Tamburrino, Stella, additional, Torrente, Maurizio M., additional, Troise, Claudia, additional, Turco, Eugenio, additional, Vallefuoco, Mattia, additional, Ventura, Guido, additional, and Vigliotti, Marco, additional

Published
2020
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49. Dose-Response Analysis in Hepatic Tumors Treated with 90Y-TARE According to a Personalized Dosimetric Workflow: Preliminary Results

Author

Capotosti, Amedeo, primary, Milano, Alessia, additional, Zagaria, Luca, additional, Perotti, Germano, additional, Rizzo, Alessio, additional, Longo, Valentina, additional, De Leoni, Davide, additional, Moretti, Roberto, additional, Breschi, Laura, additional, Meffe, Guenda, additional, Placidi, Lorenzo, additional, Cusumano, Davide, additional, Cerrito, Lucia, additional, Annunziata, Salvatore, additional, Iezzi, Roberto, additional, and Indovina, Luca, additional

Published
2023
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