Your search keyword '"Minissale P"' showing total 78 results

1. Bottomed mesons and baryons in pp collisions at $\sqrt{s}=5 \, TeV$ LHC energy within a Coalescence plus Fragmentation approach

Author

Minissale, Vincenzo, Greco, Vincenzo, and Plumari, Salvatore

Subjects

High Energy Physics - Phenomenology

Abstract

Recent experimental data from $pp$ collisions have shown a significant increase in heavy baryon production leading to a baryon over meson ratio which is one order of magnitude higher than elementary collisions ($e^+e^-$, $ep$). From a theoretical point of view this large production of baryon can be explained with hadronization via quark coalescence assuming a QGP medium in $pp$ collisions. In this study, we extend this analysis to include hadrons containing bottom quarks. Employing a coalescence plus fragmentation approach, we present predictions for $p_T$ spectra and the heavy baryon/meson ratio of charmed hadrons with and without strangeness content, specifically: $\bar{B^0}$, $B_s$, $\Lambda_b$, $\Xi_b^{0,-}$, $\Omega_b$, and the $B_c$ meson. We have found that coalescence is the dominant mechanism in the B meson production, especially at low momenta, at variance with what found in the charm sector where the D meson were mainly produced via fragmentation. Our model predicts a $\Lambda_b/\bar{B^0}\approx0.5\!-\!1$ and $\Xi_b^0/\bar{B^0}$ ratio around 0.3 at very low transverse momentum, which are about $1.5$ larger then those of the corresponding charmed hadron ratios at the same collision energy. Furthermore, we discuss the relative ratios between charmed and bottomed hadrons, emphasizing how these observables can provide information about the distribution of charm and bottom quarks and, if experimentally observed, would further support the idea of quark-gluon plasma formation even in small collision systems., Comment: 9 pages, 4 Figures

Published

2024

2. Cyclamen brulloi (Primulaceae), a new species from Sicily (Italy)

Author

Cambria, S., Giusso del Galdo, G., Minissale, P., Tavilla, G., and Salmeri, C.

Published

2024

3. QCD challenges from pp to AA collisions -- 4th edition

Author

Altmann, Javira, Andres, Carlota, Andronic, Anton, Antinori, Federico, Antonioli, Pietro, Beraudo, Andrea, Berti, Eugenio, Bianchi, Livio, Boettcher, Thomas, Capriotti, Lorenzo, Christiansen, Peter, Nuño, Jesus Guillermo Contreras, Mendez, Leticia Cunqueiro, da Silva, Cesar, Dainese, Andrea, Dembinski, Hans Peter, Chinellato, David Dobrigkeit, Dubla, Andrea, Faggin, Mattia, Flett, Chris, Greco, Vincenzo, Grishmanovskii, Ilia, Holguin, Jack, Kanakubo, Yuuka, Kim, Dong Jo, Lea, Ramona, Lee, Su Houng, Mariani, Saverio, Matyja, Adam, Mazeliauskas, Aleksas, Minissale, Vincenzo, Morsch, Andreas, Oliva, Lucia, Orusa, Luca, Paakkinen, Petja, Pablos, Daniel, Paic, Guy, Pierog, Tanguy, Plumari, Salvatore, Prino, Francesco, Rossi, Andrea, Sestini, Lorenzo, Skands, Peter, Soloveva, Olga, Soramel, Francesca, Ontoso, Alba Soto, Spousta, Martin, Leiton, Andre Govinda Stahl, Sun, Jiayin, Takacs, Adam, Trogolo, Stefano, Turrisi, Rosario, Verweij, Marta, Vislavicius, Vytautas, Wang, Jing, Werner, Klaus, Zaccolo, Valentina, Zhang, Mingyu, Zhu, Jianhui, and Zuliani, Davide

Subjects

High Energy Physics - Experiment

Abstract

This paper is a write-up of the ideas that were presented, developed and discussed at the fourth International Workshop on QCD Challenges from pp to AA, which took place in February 2023 in Padua, Italy. The goal of the workshop was to focus on some of the open questions in the field of high-energy heavy-ion physics and to stimulate the formulation of concrete suggestions for making progresses on both the experimental and theoretical sides. The paper gives a brief introduction to each topic and then summarizes the primary results.

Published

2024

4. Hadronization of Heavy Quarks

Author

Zhao, Jiaxing, Aichelin, Jörg, Gossiaux, Pol Bernard, Beraudo, Andrea, Cao, Shanshan, Fan, Wenkai, He, Min, Minissale, Vincenzo, Song, Taesoo, Vitev, Ivan, Rapp, Ralf, Bass, Steffen, Bratkovskaya, Elena, Greco, Vincenzo, and Plumari, Salvatore

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

Heavy-flavor hadrons produced in ultra-relativistic heavy-ion collisions are a sensitive probe for studying hadronization mechanisms of the quark-gluon-plasma. In this work, we survey how different transport models for the simulation of heavy-quark diffusion through a quark-gluon plasma in heavy-ion collisions implement hadronization and how this affects final-state observables. Utilizing the same input charm-quark distribution in all models at the hadronization transition, we find that the transverse-momentum dependence of the nuclear modification factor of various charm hadron species has significant sensitivity to the hadronization scheme. In addition, the charm-hadron elliptic flow exhibits a nontrivial dependence on the elliptic flow of the hadronizing partonic medium., Comment: 21 pages, 12 figures

Published

2023

5. Spin-Polarized Majorana Zero Modes in Proximitized Superconducting Penta-Silicene Nanoribbons

Author

Ribeiro, R. C. Bento, Correa, J. H., Ricco, L. S., Shelykh, I. A., Continentino, M. A., Seridonio, A. C., Minissale, M., Lay, G. L., and Figueira, M. S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We theoretically investigate the possibility of obtaining Majorana zero modes (MZMs) in penta-silicene nanoribbons (p-SiNRs) with induced \textit{p}-wave superconductivity. The model explicitly considers an external magnetic field perpendicularly applied to the nanoribbon plane, as well as an extrinsic Rashba spin-orbit coupling (RSOC), in addition to the first nearest neighbor hopping term and \textit{p}-wave superconducting pairing. By analyzing the dispersion relation profiles, we observe the successive closing and reopening of the induced superconducting gap with a single spin component, indicating a spin-polarized topological phase transition (TPT). Correspondingly, the plots of the energy spectrum versus the chemical potential reveal the existence of zero-energy states with a preferential spin orientation characterized by nonoverlapping wave functions localized at opposite ends of the superconducting p-SiNRs. These findings strongly suggest the emergence of topologically protected, spin-polarized MZMs at the ends of the p-SiNRs with induced \textit{p}-wave superconducting pairing, which can be realized by proximitizing the nanoribbon with an \textit{s}-wave superconductor, such as lead. The proposal paves the way for silicene-based Majorana devices hosting multiple MZMs with a well-defined spin orientation, with possible applications in fault-tolerant quantum computing platforms and Majorana spintronics., Comment: 12 pages, 9 figures

Published

2023

6. An overview of desorption parameters of Volatile and Complex Organic Molecules: A systematic dig on experimental literature

Author

Ligterink, N. F. W. and Minissale, M.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

Many molecules observed in the interstellar medium are thought to result from thermal desorption of ices. Parameters such as desorption energy and pre-exponential frequency factor are essential to describe the desorption of molecules. Experimental determinations of these parameters are missing for many molecules, including those found in the interstellar medium. The objective of this work is to expand the number of molecules for which desorption parameters are available, by collecting and re-analysing experimental temperature programmed desorption data that are present in the literature. Transition State Theory (TST) is used in combination with the Redhead equation to determine desorption parameters. Experimental data and molecular constants (e.g., mass, moment of inertia) are collected and given as input. Using the Redhead-TST method, the desorption parameters for 133 molecules have been determined. The Redhead-TST method is found to provide reliable results that agree well with desorption parameters determined with more rigorous experimental methods. The importance of using accurately determined pre-exponential frequency factors to simulate desorption profiles is emphasised. The large amount of data allows to look for trends, the most important is the relationship log$_{10}$($\nu$) = 2.65ln($m$) + 8.07, where $\nu$ is the pre-exponential frequency factor and $m$ the mass of the molecule. The data collected in this work allow to model the thermal desorption of molecules and help understand changes in chemical and elemental composition of interstellar environments., Comment: Accepted for Astronomy and Astrophysics

Published

2023

7. Plant distribution and conservation in mediterranean islands’ lentic wetlands: there is more than aquatic species

Author

Fois, Mauro, Cuena-Lombraña, Alba, Artufel, Mathieu, Attard, Vincent, Cambria, Salvatore, Farrugia, Krista, Marignani, Michela, Minissale, Pietro, Pace, Andrea, Sciandrello, Saverio, Tankovic, Eva, and Bacchetta, Gianluigi

Published

2024

8. Multi-charmed and singled charmed hadrons from coalescence: yields and ratios in different collision systems at LHC

Author

Minissale, Vincenzo, Plumari, Salvatore, Sun, Yifeng, and Greco, Vincenzo

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We study the production of charmed and multi-charmed hadrons in ultra-relativistic Heavy Ion Collisions coupling the transport approach for charm dynamics in the medium to an hybrid hadronization model of coalescence plus fragmentation. In this paper, we mainly discuss the particle yields for single charmed and multi-charmed baryons focusing mainly on the production of $\Xi_{cc}$ and $\Omega_{ccc}$. We provide first predictions for PbPb collision in 0-10% centrality class and then we explore the system size dependence through KrKr, to ArAr and OO collisions, planned within the ALICE3 experiment. In these cases, a monotonic behavior for the yields emerges which can be tested in future experimental data. We found about three order of magnitude increase in the production of $\Omega_{ccc}$ in PbPb collisions compared with the yield in small collision systems like OO collisions. Furthermore, we investigate the effects on the $\Omega_{ccc}$ particle production and spectra coming from the modification of the charm quark distribution due to the different size of the collision systems comparing also to the case of thermalized charm distributions. These results suggest that observation on the $\Omega_{ccc}$ spectra and their evolution across system size can give information about the partial thermalization of the charm quark distribution as well as to its wave function width., Comment: 12 pages, 8 figures; minor changes and adding of a figure

Published

2023

9. B meson production in Pb+Pb at 5.02 ATeV at LHC: estimating the diffusion coefficient in the infinite mass limit

Author

Sambataro, Maria Lucia, Minissale, Vincenzo, Plumari, Salvatore, and Greco, Vincenzo

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

In the last decade a Quasi-Particle Model (QPM) has been developed to study charm quark dynamics in ultra-relativistic heavy-ion collisions supplying a satisfactory description of the main observables for $D$ meson and providing an estimate of the space-diffusion coefficient $D_s(T)$ from the phenomenology. In this paper, we extend the approach to bottom quarks describing their propagation in the quark-gluon plasma within an event-by-event full Boltzmann transport approach followed by a coalescence plus fragmentation hadronization. We find that QPM approach is able to correctly predict the first available data on $R_{AA}(p_T)$ and $v_{2}(p_T)$ of single-electron from B decays without any parameter modification w.r.t. the charm. We show also predictions for centralities where data are not yet available for both $v_{2}(p_T)$ and $v_{3}(p_T)$. Moreover, we discuss the significant breaking of the expected scaling of the thermalization time $\tau_{th}$ with $M_Q/T$, discussing the evolution with mass of $D_s(T)$ to better assess the comparison to lQCD calculations. We find that at $T=T_c$ charm quark $D_s(T)$ is about a factor of 2 larger than the asymptotic value for $M \rightarrow \infty$, while bottom $D_s(T)$ is only a $20-25\%$ higher. This implies a $D_{s}(T)$ which is consistent within the current uncertainty to the most recent lattice QCD calculations with dynamical quarks for $M \rightarrow \infty$., Comment: 8 pages, 5 figures

Published

2023

10. Inverse Photoemission Spectroscopy of Coinage Metal Corroles: Comparison with Solution-Phase Electrochemistry

Author

Luca Giovanelli, Younal Ksari, Hela Mrezguia, Eric Salomon, Marco Minissale, Abraham B. Alemayehu, and Abhik Ghosh

Subjects

Inorganic chemistry, QD146-197, Organic chemistry, QD241-441

Published

2024

11. Flux dependence of helium retention in clean W(110): Experimental evidence for He self-trapping

Author

Dunand, A., Minissale, M., Angot, T., and Bisson, R.

Subjects

Physics - Chemical Physics

Abstract

Helium (He) retention in tungsten (W) is a concern in fusion reactors since it could be detrimental to plasma facing components performance and influence the fusion fuel balance. He being not soluble in W, it tends to agglomerate on preexisting defects (vacancy, grain boundary), but it could in theory also self-trap (be immobilized on a non-preexisting vacancy) through the emission of a vacancy/self-interstitial W pair in the vicinity of a Hen interstitial cluster. In the present study, we prepared a pure single crystal W(110) sample with a clean surface in order to evidence the self-trapping of He in the W bulk at a sample temperature of 300 K and for a constant fluence of 2.0x10$^{21}$ He$^+$.m$^{-2}$. At a He$^+$ kinetic energy of 130 eV and a flux of 0.3x10$^{17}$ He$^+$.m$^{-2}$.s$^{-1}$, we only observed a small He desorption peak below 600 K. Rising the ion flux to 0.7x10$^{17}$ He$^+$.m$^{-2}$.s$^{-1}$, we observed the sudden appearance of two desorption peaks at 950 K and 1700 K. For the highest flux studied in this work, 5.0x10$^{17}$ He$^+$.m$^{-2}$.s$^{-1}$, an additional desorption peak at 1800 K and a desorption shoulder at 1900 K are observed. The temperature position of these He desorption peaks are consistent with the density functional theory literature and points to the occurrence of self-trapping once the 0.7x10$^{17}$ He$^+$.m$^{-2}$.s$^{-1}$ flux is attained at 300 K and to the possible realization of trap-mutation for the flux of 5.0x10$^{17}$ He$^+$.m$^{-2}$.s$^{-1}$. The present set of results should be used to constrain the development of He retention and He bubbles growth models based on ab initio quantities.

Published

2022

12. Artificial intelligence and real decisions: predictive systems and generative AI vs. emotive-cognitive legal deliberations

Author

Francesco Contini, Alessandra Minissale, and Stina Bergman Blix

Subjects

emotions, empathy, legal decision making, predictive justice, generative AI, Sociology (General), HM401-1281

Abstract

The use of artificial intelligence in law represents one of the biggest challenges across different legal systems. Supporters of predictive systems believe that decisionmaking could be more efficient, consistent and predictable by using AI. European legislation and legal scholars, however, identify areas where AI developments are at high risk or too dangerous to be used in judicial proceedings. In this article, we contribute to this debate by problematizing predictive systems based on previous judgments and the growing use of Generative AI in judicial proceedings. Through illustrations from real criminal cases in Italian courts and prosecution offices, we show misalignments between the functions of AI systems and the essential features of legal decision-making and identify possible legitimate usages. We argue that current predictive systems and Generative AI crunch the complexity of judicial proceedings, the dynamics of fact-finding and legal encoding. They reduce the delivery of justice to statistical connections between data or metadata, cutting off the emotive-cognitive process that lies at the core of legal decision-making.

Published

2024

13. QCD challenges from pp to AA collisions: 4th edition

Author

Javira Altmann, Carlota Andres, Anton Andronic, Federico Antinori, Pietro Antonioli, Andrea Beraudo, Eugenio Berti, Livio Bianchi, Thomas Boettcher, Lorenzo Capriotti, Peter Christiansen, Jesus Guillermo Contreras Nuño, Leticia Cunqueiro Mendez, Cesar da Silva, Andrea Dainese, Hans Peter Dembinski, David Dobrigkeit Chinellato, Andrea Dubla, Mattia Faggin, Chris Flett, Vincenzo Greco, Ilia Grishmanovskii, Jack Holguin, Yuuka Kanakubo, Dong Jo Kim, Ramona Lea, Su Houng Lee, Saverio Mariani, Adam Matyja, Aleksas Mazeliauskas, Vincenzo Minissale, Andreas Morsch, Lucia Oliva, Luca Orusa, Petja Paakkinen, Daniel Pablos, Guy Paić, Tanguy Pierog, Salvatore Plumari, Francesco Prino, Andrea Rossi, Lorenzo Sestini, Peter Skands, Olga Soloveva, Francesca Soramel, Alba Soto Ontoso, Martin Spousta, Andre Govinda Stahl Leiton, Jiayin Sun, Adam Takacs, Stefano Trogolo, Rosario Turrisi, Marta Verweij, Vytautas Vislavicius, Jing Wang, Klaus Werner, Valentina Zaccolo, Mingyu Zhang, Jianhui Zhu, and Davide Zuliani

Subjects

Astrophysics, QB460-466, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract This paper is a write-up of the ideas that were presented, developed and discussed at the fourth International Workshop on QCD Challenges from pp to AA, which took place in February 2023 in Padua, Italy. The goal of the workshop was to focus on some of the open questions in the field of high-energy heavy-ion physics and to stimulate the formulation of concrete suggestions for making progresses on both the experimental and theoretical sides. The paper gives a brief introduction to each topic and then summarizes the primary results.

Published

2024

14. Multi-charmed and singled charmed hadrons from coalescence: yields and ratios in different collision systems at LHC

Author

Vincenzo Minissale, Salvatore Plumari, Yifeng Sun, and Vincenzo Greco

Subjects

Astrophysics, QB460-466, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We study the production of charmed and multi-charmed hadrons in ultra-relativistic Heavy Ion Collisions coupling the transport approach for charm dynamics in the medium to an hybrid hadronization model of coalescence plus fragmentation. In this paper, we mainly discuss the particle yields for single charmed and multi-charmed baryons focusing mainly on the production of $$\Xi _{cc}$$ Ξ cc and $$\Omega _{ccc}$$ Ω ccc . We provide first predictions for PbPb collision in $$0 \! - \! 10\%\ $$ 0 - 10 % centrality class and then we explore the system size dependence through KrKr , to ArAr and OO collisions, planned within the ALICE3 experiment. In these cases, a monotonic behavior for the yields emerges which can be tested in future experimental data. We found about three order of magnitude increase in the production of $$\Omega _{ccc}$$ Ω ccc in PbPb collisions compared with the yield in small collision systems like OO collisions. Furthermore, we investigate the effects on the $$\Omega _{ccc}$$ Ω ccc particle yield and spectra coming from the modification of the charm quark distribution due to the different size of the collision systems also comparing it to the case of thermalized charm distributions. These results suggest that observation on the $$\Omega _{ccc}$$ Ω ccc spectra and their evolution across system size can give novel information about the partial thermalization of the charm quark distribution as well as to its wave function width. Furthermore, we find that the $$\Omega _{ccc}$$ Ω ccc / $$D^0$$ D 0 ratio is an observable more sensitive with respect to $$\Lambda _c$$ Λ c / $$D^0$$ D 0 , this ratio is predicted to span over two order of magnitude from large to small systems.

Published

2024

15. Acetaldehyde binding energies: a coupled experimental and theoretical study

Author

Ferrero, S., Grieco, F., Mohamed, A-S. Ibrahim, Dulieu, F., Rimola, A., Ceccarelli, C., Nervi, C., Minissale, M., and Ugliengo, P.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Acetaldehyde is one of the most common and abundant gaseous interstellar complex organic molecules, found in cold and hot regions of the molecular interstellar medium. Its presence in the gas-phase depends on the chemical formation and destruction routes, and its binding energy (BE) governs whether acetaldehyde remains frozen onto the interstellar dust grains or not. In this work, we report a combined study of the acetaldehyde BE obtained via laboratory TPD (Temperature Programmed Desorption) experiments and theoretical quantum chemical computations. BEs have been measured and computed as a pure acetaldehyde ice and as mixed with both polycrystalline and amorphous water ice. Both calculations and experiments found a BE distribution on amorphous solid water that covers the 4000--6000 K range, when a pre-exponential factor of $1.1\times 10^{18}s^{-1}$ is used for the interpretation of the experiments. We discuss in detail the importance of using a consistent couple of BE and pre-exponential factor values when comparing experiments and computations, as well as when introducing them in astrochemical models. Based on the comparison of the acetaldehyde BEs measured and computed in the present work with those of other species, we predict that acetaldehyde is less volatile than formaldehyde, but much more than water, methanol, ethanol, and formamide. We discuss the astrochemical implications of our findings and how recent astronomical high spatial resolution observations show a chemical differentiation involving acetaldehyde, which can easily explained as due to the different BEs of the observed molecules., Comment: 12 pages, 6 figures

Published

2022

16. Event shape Engineering analysis of D meson in ultrarelativistic heavy ion collisions

Author

Sambataro, Maria Lucia, Sun, Yifeng, Minissale, Vincenzo, Plumari, Salvatore, and Greco, Vincenzo

Subjects

High Energy Physics - Phenomenology

Abstract

We describe the propagation of charm quarks in the quark-gluon plasma (QGP) by means of an event-by-event transport approach. In our calculations the non-perturbative interaction between heavy quarks and light quarks has been taken into account through a quasi-particle approach with thermal light quark masses tuned to reproduce lQCD thermodynamics. We found that the flow observables $v_2$ and $v_3$ of D mesons are comparable with the experimental measurements for Pb+Pb collisions at 5.02 ATeV in different ranges of centrality selections. The results are analyzed with Event-Shape Engineering technique. The comparison of the anisotropic flow coefficients $v_n$ with experimental data show a quite well agreement with experimental data for different flow vector $q_2$ selections, which confirms the strong coupling between charm quarks and light quarks in the QCD matter. Furthermore, we present here a novel study of the event-by-event correlations between flow harmonics of $D$ mesons and soft hadrons at LHC energy with the Event-Shape Engineering technique that can put further constraints on heavy quark transport coefficients toward a solid comparison between the phenomenological determination and the lattice QCD calculations., Comment: 8 pages, 8 figures

Published

2022

17. Multi-charmed and singled charmed hadrons from coalescence: yields and ratios in different collision systems at LHC

Author

Minissale, Vincenzo, Plumari, Salvatore, Sun, Yifeng, and Greco, Vincenzo

Published

2024

18. Thermal desorption of interstellar ices. A review on the controlling parameters and their implications fromsnowlines to chemical complexity

Author

Minissale, Marco, Aikawa, Yuri, Bergin, Edwin, Bertin, M., Brown, Wendy A., Cazaux, Stephanie, Charnley, Steven B., Coutens, Audrey, Cuppen, Herma M., Guzman, Victoria, Linnartz, Harold, McCoustra, Martin R. S., Rimola, Albert, Schrauwen, Johanna G. M., Toubin, Celine, Ugliengo, Piero, Watanabe, Naoki, Wakelam, Valentine, and Dulieu, Francois

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

The evolution of star-forming regions and their thermal balance are strongly influenced by their chemical composition, that, in turn, is determined by the physico-chemical processes that govern the transition between the gas phase and the solid state, specifically icy dust grains (e.g., particles adsorption and desorption). Gas-grain and grain-gas transitions as well as formation and sublimation of interstellar ices are thus essential elements of understanding astrophysical observations of cold environments (e.g., pre-stellar cores) where unexpected amounts of a large variety of chemical species have been observed in the gas phase. Adsorbed atoms and molecules also undergo chemical reactions which are not efficient in the gas phase. Therefore, the parameterization of the physical properties of atoms and molecules interacting with dust grain particles is clearly a key aspect to interpret astronomical observations and to build realistic and predictive astrochemical models. In this consensus evaluation, we focus on parameters controlling the thermal desorption of ices and how these determine pathways towards molecular complexity and define the location of snowlines, which ultimately influence the planet formation process. We review different crucial aspects of desorption parameters both from a theoretical and experimental point of view. We critically assess the desorption parameters commonly used in the astrochemical community for astrophysical relevant species and provide tables with recommended values. In addition, we show that a non-trivial determination of the pre-exponential factor nu using the Transition State Theory can affect the binding energy value. Finally, we conclude this work by discussing the limitations of theoretical and experimental approaches currently used to determine the desorption properties with suggestions for future improvements., Comment: 115 pages, 17 figures

Published

2022

19. Spin-polarized Majorana zero modes in proximitized superconducting penta-silicene nanoribbons

Author

Bento Ribeiro, R. C., Correa, J. H., Ricco, L. S., Shelykh, I. A., Continentino, Mucio A., Seridonio, A. C., Minissale, M., Le Lay, G., and Figueira, M. S.

Published

2023

20. Risk of noise-induced hearing loss in the spine surgeon

Author

Matthew H. Meade, DO, Stephanie A. Kwan, DO, Mark E. Michael, DO, Nicholas J. Minissale, DO, Levi Buchan, DO, Jeffrey R. Gleimer, DO, Barrett I. Woods, MD, and Christopher Kepler, MD

Subjects

Noise, Noise-induced hearing loss, Occupational hazard, Spine, Decibel, Hearing loss, Orthopedic surgery, RD701-811, Neurology. Diseases of the nervous system, RC346-429

Abstract

ABSTRACT: Background: Occupation-related noise-induced hearing loss (NIHL) has both negative economic and quality of life implications. The risk spine surgeons undertake in regards to NIHL during operative intervention is unknown. Governing bodies, including the National Institute for Occupational Safety and Health, have recommended exposure limits not to exceed 85 decibels (dB) over 8 hours. The purpose of this study is to characterize noise exposure to spine surgeons in the operating room (OR). Methods: Prospective collection of intraoperative recordings of spinal surgeries (cervical and thoracic/lumbar) was undertaken. Data gathered included procedure, operative duration, presence of background music, and noise information. Noise information included maximum decibel level (MDL), Peak level (LCPeak), Equivalent continuous sound pressure level, time weighted average (TWA), dose, and projected dose. Noise measurements were compared with baseline controls with and without music (empty ORs). Results: Two hundred seven noise recordings were analyzed. One hundred eighteen of those being spinal surgeries, 49 baseline recordings without music, and 40 with music. Maximum decibel level reached a maximum value of 111.5 dBA, with an average amongst surgical recordings of 103 dBA. Maximum decibel level exceeded 85 dBA in 100% of cases and was greater than 100 dBA in 78%. The maximum LCPeak recorded was 132.9 dBC with an average of 120 dBC. Furthermore, the average dose was 7.8% with an average projected dose of 26.5%. The highest dose occurred during a laminectomy at 72.9% of daily allowable noise. Maximum projected dose yielded 156% during a 3-level anterior cervical discectomy and fusion. Conclusions: Spine surgeons are routinely exposed to damaging noise levels (>85 dBA) during operative intervention. With spine surgeons often performing multiple surgeries a day, the cumulative risk of noise exposure cannot be ignored. The synergistic effects of continuous and impact noise places spine surgeons at risk for the development of occupation-related NIHL.

Published

2024

21. Addition of two species to the Maltese flora: Lythrum tribracteatum Salzm. ex Spreng. (Lythraceae) and Poa maroccana Nannf. (Poaceae)

Author

Gianmarco Tavilla, Pietro Minissale, Leanne Camilleri, and Sandro Lanfranco

Subjects

Distribution extension, new records, rock pools, Biology (General), QH301-705.5

Abstract

During a fieldwork in Malta in 2023, we discovered two species of plant previously unknown to the Maltese flora, Lythrum tribracteatum Salzm. ex Spreng. and Poa maroccana Nannf. Specific information on their morphology and ecology is provided.

Published

2023

22. Spin-polarized Majorana zero modes in proximitized superconducting penta-silicene nanoribbons

Author

R. C. Bento Ribeiro, J. H. Correa, L. S. Ricco, I. A. Shelykh, Mucio A. Continentino, A. C. Seridonio, M. Minissale, G. Le Lay, and M. S. Figueira

Subjects

Medicine, Science

Abstract

Abstract We theoretically propose penta-silicene nanoribbons (p-SiNRs) with induced p-wave superconductivity as a platform for the emergence of spin-polarized Majorana zero-modes (MZMs). The model explicitly considers the key ingredients of well-known Majorana hybrid nanowire setups: Rashba spin-orbit coupling, magnetic field perpendicular to the nanoribbon plane, and first nearest neighbor hopping with p-wave superconducting pairing. The energy spectrum of the system, as a function of chemical potential, reveals the existence of MZMs with a well-defined spin orientation localized at the opposite ends of both the top and bottom chains of the p-SiNR, associated with well-localized and nonoverlapping wave function profiles. Well-established experimental techniques enable the fabrication of highly ordered p-SiNRs, complemented by a thin lead film on top, responsible for inducing p-wave superconductivity through proximity effect. Moreover, the emergence of MZMs with explicit opposite spin orientations for some set of model parameters opens a new avenue for exploring quantum computing operations, which accounts for both MZMs and spin properties, as well as for new MZMs probe devices based on spin-polarized electronic transport mechanisms.

Published

2023

23. Syntaxonomical Remarks on the Garrigues from Apulia (S Italy) and Neighboring Territories

Author

Valeria Tomaselli, Saverio Sciandrello, Pietro Minissale, Luigi Forte, Emanuele Costanzo, Gianpietro Giusso del Galdo, Francesca Carruggio, Gaetano Pazienza, and Salvatore Brullo

Subjects

shrub vegetation, Puglia, S Italy, Cisto cretici-Micromerietea julianae, Cisto eriocephali-Ericion multiflorae, Cytiso spinescentis-Saturejion montanae, Botany, QK1-989

Abstract

In this study, the garrigues occurring in Apulia and neighboring territories (southern Italy) were surveyed in order to clarify their syntaxonomical arrangement. Many contributions previously focused on this vegetation type, often adopting different and sometimes contrasting treatments from both the nomenclature and syntaxonomical aspects. Our investigations are supported by the multivariate analysis of a dataset containing 292 phytosociological relevés, whose resulting cluster dendrogram highlights the hierarchical relationships between the examined plant communities. Overall, twenty-one associations with several sub-associations were recognized. Some of them are already known in the literature, whereas others are described here for the first time. As concerns the syntaxonomical framework, this vegetation is attributable to the class Cisto cretici-Micromerietea julianae, which in this territory is represented by the order Cisto eriocephali-Ericetalia manipuliflorae and by two alliances: Cisto eriocephali-Ericion multiflorae, grouping the more thermophilous associations usually distributed along coastlines and at low altitudes; and Cytiso spinescentis-Saturejion montanae, including the mesophilic associations occurring in mountain and sub-mountain belts.

Published

2024

24. The Use of Drones for Cost-Effective Surveys in Natura 2000 Protected Areas: A Case Study on Monitoring Plant Diversity in Sicily (Italy)

Author

Gianmarco Tavilla, Alessandro Crisafulli, Pietro Minissale, Valeria Tomaselli, and Maria Adamo

Subjects

endemic species, landscape monitoring, Mediterranean flora, remote sensing, Saxifraga, vascular flora, Agriculture

Abstract

Unmanned aerial vehicles (UAVs), commonly known as drones, present a cost-effective solution for the swift collection of data from vast and remote areas that are otherwise difficult to access. The Mediterranean Basin, known for being a hotspot for plant biodiversity, hosts several habitats and taxa of significant naturalistic value. However, many of these areas are often inaccessible to botanists, making exploration and research challenging. The aim of this paper is to involve the utilization of drone surveys and open-source software for botanical research. Our primary goal is to show the effectiveness of these tools in the field and demonstrate their practical application in Natura 2000 sites. The protected area chosen for this research is Rocca di Novara, situated in northeastern Sicily. Thanks to our drone investigations, we were able to capture images of a mountainside that is inaccessible to humans. This allowed us to observe the habitat of some species in detail. One of the most fascinating discoveries was the reappearance of Saxifraga callosa subsp. australis, which had not been confirmed in this area for over 140 years. Using drones for botanical research can boost field research, making monitoring easier and more cost-effective over time, especially in Natura 2000 sites.

Published

2024

25. Taxonomic and ecological remarks on Solenopsis bivonae species complex (Campanulaceae)

Author

Salvatore Brullo, Cristian Brullo, Salvatore Cambria, Valeria Tomaselli, Alessandro Crisafulli, Giuseppe Siracusa, Pietro Minissale, and Gianpietro Giusso del Galdo

Subjects

Botany, QK1-989

Abstract

The populations usually attributed to Solenopsis bivonae (Tineo) M.B.Crespo, Serra & A.Juan are investigated from a taxonomical and morphological viewpoint. Within this species complex, four new subspecies occurring in Sicily and Calabria are recognized, such as subsp. bivonae, subsp. madoniarum, subsp. peloritana and subsp. brutia. In addition, a new species from Cyprus described as S. meikleana and S. bacchettae from Sardinia must be included in this group. The synonymy, typification, description, seed testa morphology, chorology, ecology, illustrations, conservation status, and examined specimens for each taxon are provided. Besides, the analytical keys, distribution maps, and phytosociological arrangement regarding these taxa are given too.

Published

2023

26. B meson production in Pb+Pb at 5.02 ATeV at LHC: Estimating the diffusion coefficient in the infinite mass limit

Author

Maria Lucia Sambataro, Vincenzo Minissale, Salvatore Plumari, and Vincenzo Greco

Subjects

Relativistic heavy-ion collisions, Quark-gluon plasma, Heavy quark transport, Heavy flavour hadronization, Physics, QC1-999

Abstract

In the last decade a Quasi-Particle Model (QPM) has been developed to study charm quark dynamics in ultra-relativistic heavy-ion collisions supplying a satisfactory description of the main observables for D meson and providing an estimate of the space-diffusion coefficient Ds(T) from the phenomenology. In this paper, we extend the approach to bottom quarks describing their propagation in the quark-gluon plasma within an event-by-event full Boltzmann transport approach followed by a coalescence plus fragmentation hadronization. We find that QPM approach is able to correctly predict the first available data on RAA(pT) and v2(pT) of single-electron from B decays without any parameter modification w.r.t. the charm. We show also predictions for centralities where data are not yet available for both v2(pT) and v3(pT). Moreover, we discuss the significant breaking of the expected scaling of the thermalization time τth with MQ/T, discussing the evolution with mass of Ds(T) to better assess the comparison to lQCD calculations. We find that at T=Tc charm quark Ds(T) is about a factor of 2 larger than the asymptotic value for M→∞, while bottom Ds(T) is only a 20% higher. This implies a Ds(T) which is consistent within the current uncertainty to the most recent lattice QCD calculations with dynamical quarks for M→∞.

Published

2024

27. Event-shape engineering analysis of D meson in ultrarelativistic heavy-ion collisions

Author

Maria Lucia Sambataro, Yifeng Sun, Vincenzo Minissale, Salvatore Plumari, and Vincenzo Greco

Subjects

Astrophysics, QB460-466, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We describe the propagation of charm quarks in the quark-gluon plasma (QGP) by means of an event-by-event transport approach. In our calculations the non-perturbative interaction between heavy quarks and light partons has been taken into account through a quasi-particle approach with thermal light quark masses tuned to reproduce lQCD thermodynamics. We found that the flow observables $$v_2$$ v 2 and $$v_3$$ v 3 of D mesons are comparable with the experimental measurements for Pb + Pb collisions at 5.02 TeV in different ranges of centrality selections. The results are analyzed with event-shape engineering technique. The comparison of the anisotropic flow coefficients $$v_n$$ v n with experimental data show a quite good agreement with experimental data for different flow vector $$q_2$$ q 2 selections, which confirms the strong coupling between charm quarks and light quarks in the QCD matter. Furthermore, we present here a novel study of the event-by-event correlations between flow harmonics of D mesons and soft hadrons at LHC energy with the event-shape engineering technique that can put further constraints on heavy quark transport coefficients toward a solid comparison between the phenomenological determination and the lattice QCD calculations.

Published

2022

28. New Alien Plant Taxa for Italy and Europe: An Update

Author

Carmelo Maria Musarella, Valentina Lucia Astrid Laface, Claudia Angiolini, Gianluigi Bacchetta, Enrico Bajona, Enrico Banfi, Giulio Barone, Nello Biscotti, Daniele Bonsanto, Giacomo Calvia, Salvatore Cambria, Alberto Capuano, Giuseppe Caruso, Alessandro Crisafulli, Emanuele Del Guacchio, Emilio Di Gristina, Gianniantonio Domina, Emanuele Fanfarillo, Simonetta Fascetti, Tiberio Fiaschi, Gabriele Galasso, Francesco Mascia, Giuliana Mazzacuva, Giacomo Mei, Pietro Minissale, Riccardo Motti, Enrico Vito Perrino, Rosa Maria Picone, Lorenzo Pinzani, Lina Podda, Giovanna Potenza, Leonardo Rosati, Adriano Stinca, Gianmarco Tavilla, Clizia Villano, Robert Philipp Wagensommer, and Giovanni Spampinato

Subjects

biodiversity, biological invasions, floristic list, herbarium, IAS, Italian regions, Botany, QK1-989

Abstract

Despite the wide amount of scientific contributions published on alien plant species, their diffusion dynamics, and their interactions with native taxa, it is increasingly difficult to slow down their spreading and their negative impact on habitats. Last recent years, in fact, a sharp rise in the number of new alien plant taxa introduced in Italy and Europe has been recorded. The aim of this work is to investigate most of the Italian territory in order to verify whether this alarming trend is still underway. Specimen collections and/or observations of alien plants have been performed in as many as 12 Italian regions. All the collected specimens are stored in public or private herbaria. Taxa have been identified according to the literature from the countries of origin of the investigated taxa, while the nomenclature followed the current international references. Updates on 106 taxa are reported. In particular, among 117 new records, 89 are first records, 27 are changes to status and there is 1 extinction. Seven new taxa for Italian alien flora are reported, two of which are new to Europe. The administrative regions with the highest number of records are Calabria (48), Sardegna (17) and Sicilia (15). Five of the surveyed taxa, for the first time, have been considered invasive aliens to Italian territory. The unfrequent amount of original results provided by this work, over the simple importance of data itself, proves how floristic investigation, still today, represents one of the most effective tools in broadening the current knowledge about alien taxa and their dynamics.

Published

2024

29. Deuterium uptake, desorption and sputtering from W(110) surface covered with oxygen

Author

E.A. Hodille, B. Pavec, J. Denis, A. Dunand, Y. Ferro, M. Minissale, T. Angot, C. Grisolia, and R. Bisson

Subjects

plasma-wall interactions, hydrogen, multi-scale modelling, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Rate equation modelling is performed to simulate ${\mathrm{D_2}}$ and ${\mathrm{D_2}}+{\mathrm{D}_2^+}$ exposure of the ${\mathrm{W}(110)}$ surface with varying coverage of oxygen atoms (O) from the clean surface up to 0.75 monolayer of O. Density Functional Theory (DFT) calculated energetics are used as inputs for the surface processes and desorption energies are optimized to best reproduce the Thermal Desorption Spectrometry (TDS) experiments obtained for ${\mathrm{D_2}}$ exposure. For the clean surface, the optimized desorption energies (1.10 eV–1.40 eV) are below the DFT ones (1.30 eV–1.50 eV). For the O covered surface, the main desorption peak is reproduced with desorption energies of 1.10 eV and 1.00 eV for 0.50 and 0.75 monolayer of O respectively. This is slightly higher than the DFT predicted desorption energies. In order to simulate satisfactorily the total retention obtained experimentally for ${\mathrm{D_2}}+{\mathrm{D}_2^+}$ exposure, a sputtering process needs to be added to the model, describing the sputtering of adsorbed species (D atoms) by the incident D ions. The impact of the sputtering process on the shape of the TDS spectra, on the total retention and on the recycling of D from the wall is discussed. In order to better characterize the sputtering process, especially its products and yields, atomistic calculations such as molecular dynamics are suggested as a next step for this study.

Published

2024

30. Event-by-event heavy-flavour dynamics: Estimating the spatial diffusion coefficient Ds from charm to the infinite mass limit

Author

Minissale Vincenzo, Sambataro Maria Lucia, Plumari Salvatore, and Greco Vincenzo

Subjects

Physics, QC1-999

Abstract

Quasi-Particle Model (QPM) has been developed to study charm quark dynamics in ultra-relativistic heavy-ion collisions with good description of D mesons RAA(pT) and v2,3(pT) and leading to the evaluation of the spatial diffusion coefficient Ds(T). With an event-by-event full Boltzmann transport approach followed by a hybrid hadronization via coalescence plus fragmentation, we show RAA(pT), v2(pT) down to pT → 0 for D and B mesons. We find that QPM approach is able to correctly predict first available data on RAA(pT) and v2(pT) of single-electron from B mesons decays measured by ALICE. A significant breaking of the expected scaling of the thermalization time τth with MQ/T is found. Charm quark Ds(T) is about 50% larger than the asymptotic value for MQ → ∞, while the bottom Ds(T) is only 20% higher. In the infinite mass limit the Ds(T) is consistent with recent lQCD calculations with dynamical quarks.

Published

2024

31. Sequencing one-dimensional Majorana materials for topological quantum computing

Author

Marco Minissale, Paolo Bondavalli, M S Figueira, and Guy Le Lay

Subjects

Kitaev chains, Majorana Zero Modes, 1D platforms, topological quantum computation, Materials of engineering and construction. Mechanics of materials, TA401-492, Physics, QC1-999

Abstract

Majorana fermions are a fascinating class of particles with unique and intriguing properties: they are their own antiparticles, as first theorized by the Italian physicist Ettore Majorana in 1937. In recent decades, research in condensed matter physics shows theoretically that in certain exotic states of matter, such as topological superconductors, pairs of Majorana fermions can emerge as bound states at defects or interfaces, known as Majorana Zero Modes (MZMs). They behave like non-local anyons and could be used as decoherence-protected qubits. After the seminal work of Kitaev (2001), one-dimensional artificial setups have been developed in line with the concept of the Kitaev chain to implement MZMs. As no definite proof has yet been widely accepted by the community, improvements in the architectures and setups have been realized, and different platforms have been devised, which could be kinds of ‘DNA’ in this rapidly evolving vivid ecosystem. Here, we sequence these ‘DNAs’ and draw perspectives for topological quantum computation.

Published

2024

32. Deuterium retention and ammonia production from D-implanted 316 L stainless steel: insights for future fusion reactors

Author

T Aissou, F Ghiorghiu, M Minissale, T Angot, G De Temmerman, and R Bisson

Subjects

deuterium, ammonia, stainless steel, 316L, desorption, plasma-wall interactions, Materials of engineering and construction. Mechanics of materials, TA401-492, Chemical technology, TP1-1185

Abstract

We present a systematic study that quantifies deuterium (D) retention and ammonia (ND _3 ) production from 316 L stainless steel (SS316L) following the implantation of D ions in conditions similar to the ones expected in the ITER tokamak, i.e. with kinetic energy below 300 eV. Using Temperature Programmed Desorption (TPD) after deuterium ion implantation at 250 eV/D, we show that deuterium retention increases linearly with the D fluence up to 10 ^21 D ^+ m ^−2 , with a retention probability of 18%. For higher D fluence, deuterium retention increases sub-linearly. Analysis of the TPD spectra evolution with varying storage time in vacuum after D implantation, shows that D retention is influenced by D diffusion into the bulk of SS316L. Subsequent to D ion implantation, we evidence the efficient production of ND _3 molecules during TPD, between 400 K and 750 K, from the nitrogen present naturally in SS316L. Up to 21% of the D release during TPD can be found in ND _3 molecules, indeed. The fraction of ND _3 in the total D release depends both on the D ion fluence and the nitrogen concentration profile in the bulk. At least 7% of the D release is found in the form of ND _3 molecules, even at a fluence of 2 × 10 ^21 D ^+ m ^−2 and for a natural N concentration bulk profile. Both N diffusion and D diffusion into the bulk appear to dictate the kinetics of ND _3 production. Our findings of efficient production of ND _3 in D-implanted austenitic 316 L stainless steel underline the need for similar studies on reduced-activation ferritic/martensitic (RAFM) steels that contain similar content of nitrogen and will be used in fusion reactor prototypes.

Published

2024

33. Evaluating the Healing Potential of J-Plasma Scalpel-Created Surgical Incisions in Porcine and Rat Models

Author

Lilith Elmore, Nicholas J. Minissale, Lauren Israel, Zoe Katz, Jordan Safran, Adriana Barba, Luke Austin, Thomas P. Schaer, and Theresa A. Freeman

Subjects

cold atmospheric plasma, surgical site infection, periprosthetic joint infection, plasma scalpel, Biology (General), QH301-705.5

Abstract

Cold atmospheric plasma devices generate reactive oxygen and nitrogen species that can be anti-microbial but also promote cell migration, differentiation, and tissue wound healing. This report investigates the healing of surgical incisions created using cold plasma generated by the J-Plasma scalpel (Precise Open handpiece, Apyx Medical, Inc.) compared to a steel scalpel in in vivo porcine and rat models. The J-Plasma scalpel is currently FDA approved for the delivery of helium plasma to cut, coagulate, and ablate soft tissue during surgical procedures. To our knowledge, this device has not been studied in creating surgical incisions but only during deeper dissection and hemostasis. External macroscopic and histologic grading by blinded reviewers revealed no significant difference in wound healing appearance or physiology in incisions created using the plasma scalpel as compared with a steel blade scalpel. Incisions created with the plasma scalpel also had superior hemostasis and a reduction in tissue and blood carryover. Scanning electron microscopy (SEM) and histology showed collagen fibril fusion occurred as the plasma scalpel incised through the tissue, contributing to a sealing effect. In addition, when bacteria were injected into the dermis before incision, the plasma scalpel disrupted the bacterial membrane as visualized in SEM images. External macroscopic and histologic grading by blinded reviewers revealed no significant difference in wound healing appearance or physiology. Based on these results, we propose additional studies to clinically evaluate the use of cold plasma in applications requiring hemostasis or when an increased likelihood of subdermal pathogen leakage could cause surgical site infection (i.e., sites with increased hair follicles).

Published

2024

34. New national and regional Annex I Habitat records: from #37 to #44

Author

Gianmarco Tavilla, Claudia Angiolini, Simonetta Bagella, Federica Bonini, Salvatore Cambria, Maria Carmela Caria, Assunta Esposito, Emanuele Fanfarillo, Valentina Ferri, Tiberio Fiaschi, Lorenzo Gianguzzi, Gianpietro Giusso del Galdo, Vincenzo Ilardi, Giacomo Mei, Pietro Minissale, Giovanni Rivieccio, Saverio Sciandrello, Adriano Stinca, and Giuseppe Bazan

Subjects

Plant culture, SB1-1110, Plant ecology, QK900-989

Abstract

In this contribution, Italian new data concerning the distribution of the Annex I Habitats 3150, 3170*, 3260, 4090, 91L0, 91M0, 9340 are reported. In detail, 20 new occurrences in Natura 2000 sites are presented and 30 new cells are added in the EEA 10 km × 10 km reference grid. The new data refer to the Italian administrative regions of Campania, Lazio, Sardinia, Sicily, Tuscany, and Umbria.

Published

2022

35. Optical Properties of Tungsten: A Parametric Study to Characterize the Role of Roughness, Surface Composition and Temperature

Author

Federica Pappalardo, Francisco Romero Lairado, Cyprien Louis de Canonville, Céline Martin, Gregory Giacometti, Guillaume Serin, Eric Salomon, Thierry Angot, Laurent Gallais, Régis Bisson, and Marco Minissale

Subjects

tungsten, roughness, optical properties, tungsten oxide, ITER, laser annealing, Optics. Light, QC350-467, Applied optics. Photonics, TA1501-1820

Abstract

Tungsten (W) is the material selected for the divertor exhaust of the international nuclear fusion experiment ITER. In this harsh environment, the interactions of heat loads and ion fluxes with W can induce temporary or permanent evolution in the optical properties. Poor knowledge of such evolution during a plasma operation can lead to errors in temperature measurements performed by optical diagnostics. Therefore, it is of fundamental importance to characterize possible changes in W optical properties. In this work, we studied the role of morphology and temperature on the optical response of W. The reflectivities of five W samples with different roughness values (20–100 nm) were measured during laser annealing (25–800 °C) in the visible and near-infrared domains (500–1100 nm). We observed an increase in reflectivity after annealing and we demonstrated that it was due to a change in the chemical composition of the surface, in particular a reduction in the amount of native oxide. Moreover, we show that roughness does not sensibly vary in the investigated temperature range. By highlighting the role played by roughness and surface impurities (e.g., oxide), we provide insight in how W optical properties can evolve in tokamaks where high ion fluxes, heat loads, and impurities can induce the evolution of both the morphology and surface composition of W.

Published

2022

36. Laser Annealing of Sb2Te3 2D Layers towards Nonlinear Optical Applications

Author

Delphine Coiras, Richard-Nicolas Verrone, Andrea Campos, Martiane Cabié, Laurent Gallais, Marco Minissale, Julien Lumeau, Jean-Yves Natoli, and Konstantinos Iliopoulos

Subjects

chalcogenides, nonlinear optical properties, Z-scan, ultrafast saturable absorption, Optics. Light, QC350-467, Applied optics. Photonics, TA1501-1820

Abstract

In this work, we performed laser annealing of thin Sb2Te3 films to optimize crystallization time and their nonlinear optical properties. The annealed layers were studied by electron microscopy and UV–Vis spectrophotometry. Their nonlinear optical response was investigated by nonlinear transmission and Z-scan measurements. These studies were performed by a femtosecond laser system providing 400 fs laser pulses at 1030 nm. The results were compared with previous findings based on studies of oven-annealed thin films.

Published

2022

37. Flux dependence of helium retention in clean W(110): Experimental evidence for He self-trapping

Author

A. Dunand, M. Minissale, T. Angot, and R. Bisson

Subjects

Helium, Self-trapping, Trap-mutation, Tungsten, Desorption, Plasma facing components, Nuclear engineering. Atomic power, TK9001-9401

Abstract

Helium (He) retention in tungsten (W) is a concern in fusion reactors since it could be detrimental to plasma facing components performance and influence the fusion fuel balance. He being not soluble in W, it tends to agglomerate on preexisting defects (vacancy, grain boundary), but it could in theory also self-trap (be immobilized on a non-preexisting vacancy) through the emission of a vacancy/self-interstitial W pair in the vicinity of a Hen interstitial cluster. In the present study, we prepared a pure single crystal W(110) sample with a clean surface in order to evidence the self-trapping of He in the W bulk at a sample temperature of 300 K and for a constant fluence of 2.0 × 1021 He+.m−2. At a He+ kinetic energy of 130 eV and a flux of 0.3 × 1017 He+.m−2.s−1, we only observed a small He desorption peak below 600 K. Rising the ion flux to 0.7 × 1017 He+.m−2.s−1, we observed the sudden appearance of two desorption peaks at 950 K and 1700 K. For the highest flux studied in this work, 5.0 × 1017 He+.m−2.s−1, an additional desorption peak at 1800 K and a desorption shoulder at 1900 K are observed. The temperature position of these He desorption peaks are consistent with the density functional theory literature and points to the occurrence of self-trapping once the 0.7 × 1017 He+.m−2.s−1 flux is attained at 300 K and to the possible realization of trap-mutation for the flux of 5.0 × 1017 He+.m−2.s−1. The present set of results should be used to constrain the development of He retention and He bubbles growth models based on ab initio quantities.

Published

2023

38. Competition between recovery and recrystallization in two tungsten supplies according to ITER specifications: Experimental assessment of initial state, recovery kinetics, and grain-boundary mobility, assisted by a mean-field model

Author

Durif, A., Piot, D., Richou, M., Gallais, L., Lemetais, M., Lenci, M., Minissale, M., and Kermouche, G.

Published

2022

39. Comorbidities impact and de-prescribing in elderly with HCV-related liver disease: analysis of a prospective cohort

Author

Licata, Anna, Minissale, Maria Giovanna, Giannitrapani, Lydia, Montalto, Filippo A., Lombardo, Clelia, Mirarchi, Luigi, Amodeo, Simona, Soresi, Maurizio, and Montalto, Giuseppe

Published

2022

40. Midterm outcomes and survivorship of arthroscopic elbow debridement: a comparison of posttraumatic versus primary degenerative osteoarthritis

Author

Dennis A. DeBernardis, DO, Adam J. Santoro, DO, Nicholas J. Minissale, DO, Jacob M. Kirsch, MD, Quincy T. Cheesman, DO, Frank G. Alberta, MD, and Luke S. Austin, MD

Subjects

Level III, Retrospective Cohort Comparison, Prognosis Study, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Abstract

Background: Arthroscopic debridement is an effective means of surgical management of both degenerative osteoarthritis (DOA) and posttraumatic arthritis (PTA) of the elbow. However, the difference in the efficacy and longevity of this procedure when performed for these two distinct pathologies remains in question. The purpose of this study was to identify and compare the midterm outcomes and survivorship of arthroscopic debridement of elbow PTA and DOA. Methods: A retrospective analysis of patients undergoing arthroscopic debridement of DOA and PTA of the elbow was performed. A questionnaire containing the Oxford Elbow Score, as well as questions regarding the incidence of reoperation, additional nonoperative intervention, complications, pain, and satisfaction, was given at 5 years, minimum, after surgery. The midterm survivorship of arthroscopic debridement free of reoperation for any reason, as well as the remaining outcome measurements obtained via the questionnaire and in-office evaluation, was compared between PTA and DOA cohorts. Results: Eighty patients (DOA = 36, PTA = 44) were included in this study for analysis. All 36 patients with DOA were noted to be male. Follow-up time at the date of questionnaire response was 7.9 years (range, 5.6-11.8) in the DOA cohort and 8.6 years (range, 5.7-12.7) in the PTA cohort. Reoperation rates of 5.6% and 11.4% were identified in the DOA and PTA cohorts, respectively. No statistical difference was noted in reoperation rate, survivorship, or any measured patient-reported outcomes between cohorts at the final follow-up visit. Both cohorts demonstrated a significant improvement in Visual Analog Scale pain scores (P

Published

2022

41. Relevant habitats neglected by the Directive 92/43 EEC: the contribution of Vegetation Science for their reappraisal in Sicily

Author

Riccardo Guarino, Salvatore Pasta, Giuseppe Bazan, Alessandro Crisafulli, Orazio Caldarella, Gian Pietro Giusso del Galdo, Alessandro Silvestre Gristina, Vincenzo Ilardi, Antonino La Mantia, Corrado Marcenò, Pietro Minissale, Saverio Sciandrello, Leonardo Scuderi, Giovanni Spampinato, Angelo Troia, and Lorenzo Gianguzzi

Subjects

Plant culture, SB1-1110, Plant ecology, QK900-989

Abstract

Field investigation carried out by the Sicilian botanists in the last 20 years enabled them to identify eight habitat types of high biogeographic and conservation interest, neglected by the Directive 92/43, which deserve ad hoc conservation measures. For each of these habitats, a syntaxonomic interpretation of the corresponding plant communities, their main ecological, physiognomic and syndynamic traits and a list of diagnostic species are provided. Their classification into the macrotypes listed in the Annex I of the Directive 92/43 and the respective correspondence in EUNIS habitat classification are proposed. The habitats here described integrate those already proposed by the Italian Botanical Society, with the hope of an adequate recognition at national at supranational level.

Published

2021

42. Climate Change and Wetland Ecosystems: The Effects on Halophilous Vegetation Diversity in Il-Ballut ta’ Marsaxlokk Natura 2000 Site (Malta)

Author

Gianmarco Tavilla, Arthur Lamoliere, James Gabarretta, Vincent Attard, Jonathan Henwood, Darrin T. Stevens, Gianpietro Giusso del Galdo, Pietro Minissale, Veronica Ranno, Maria Adamo, Valeria Tomaselli, Saverio Sciandrello, and Sandro Lanfranco

Subjects

diversity indices, drone monitoring, Ellenberg indicator values, habitat directive, island, landscape resilience, Agriculture

Abstract

Climate change poses a fundamental threat to the wetlands. The Mediterranean basin is a biodiversity hotspot, and wetlands are important for maintaining this status. The current study evaluated the halophilous vegetation diversity of one of the most relevant Maltese wetlands, Il-Ballut ta’ Marsaxlokk Natura 2000 site, also identified under the Water Framework Directive. A vegetation analysis was carried out according to the Braun–Blanquet approach. The processed dataset included both data from the literature and unpublished data. To quantify vegetation structure and diversity, a hierarchical classification (Chord distance; Ward linkage) and diversity and ecological indices were performed. Diachronic analysis of the taxonomic diversity indices and the Ellenberg indicator values were taken into account. We used an NMDS analysis to assess the ecological fingerprint of the vegetation. In addition, we provided an actual vegetation map for Il-Ballut ta’ Marsaxlokk, based on drone orthophotos. We identified five EU Directive habitats in the study area (1150*, 1310, 1410, 1420, and 92D0) of which one (1150*) was reported for the first time. The ecological fingerprint of the halophilous vegetation has undergone changes over time, particularly due to increasing temperatures. In fact, the results showed that nutrients and temperature were the strongest environmental drivers of the site. The results and methodology of this study demonstrate how vegetation studies can serve as tools to improve knowledge, management actions, and landscape planning of Natura 2000 sites.

Published

2023

43. N-Acetylcysteine for Preventing Acetaminophen-Induced Liver Injury: A Comprehensive Review

Author

Anna Licata, Maria Giovanna Minissale, Simona Stankevičiūtė, Judith Sanabria-Cabrera, Maria Isabel Lucena, Raul J Andrade, and Piero Luigi Almasio

Subjects

acetaminophen, drug-induced liver injury, hepatotoxicity, N-acetyl-cysteine, safety, Therapeutics. Pharmacology, RM1-950

Abstract

Aims: N-Acetylcysteine (NAC) is used as an antidote in acetaminophen (APAP) overdose to prevent and mitigate drug-induced liver injury (DILI). Our objective was to systematically review evidence of the use of NAC as a therapeutic option for APAP overdose and APAP-related DILI in order to define the optimal treatment schedule and timing to start treatment.Methods: Bibliographic databases (PubMed, Web of Science, Embase, and MEDLINE) were searched for retrospective and prospective cohort studies, case series, and clinical trials. The prespecified primary outcomes were DILI-related mortality, hepatotoxicity, and adverse events (AEs).Results: In total, 34 studies of NAC usage in APAP-related DILI cases with 19,580 patients were identified, of which 2,376 patients developed hepatotoxicities. The mortality rate across different studies ranged from 0 to 52%. Large variability of NAC regimens was found, i.e., intravenous (I.V.) (100–150 mg/kg) and oral (70–140 mg/kg), and length of treatment varied—12, 24, or 48 h for I.V. regimen and 72 h for oral administration. The timing of initiation of NAC treatment showed different results in terms of occurrence of hepatotoxicity and mortality; if started within 8 h and no more than 24 h from APAP overdose, either intravenously or orally, NAC administration was efficacious in terms of mortality. The most frequent AEs reported were anaphylactic reactions, followed by cutaneous AEs for the IV route and intestinal AEs for the oral one.Conclusion: NAC improves hepatotoxicity and reduces mortality. Timing of treatment, ranging from 8 to 24 h from APAP overdose, regardless of the regimen or route of administration, is important to prevent or minimize liver damage, particularly in children and in elderly and obese patients.

Published

2022

44. Validation of associations for the temporary ponds of the class Isoeto-Nanojuncetea in Puglia (southern Italy)

Author

Valeria Tomaselli, Leonardo Beccarisi, Salvatore Cambria, Luigi Forte, Pietro Minissale, Saverio Sciandrello, Giuseppe Veronico, and Salvatore Brullo

Subjects

association, ICPN, nomenclature, syntaxonomy, vegetation, Botany, QK1-989

Abstract

This paper presents the validation of 16 new associations, described in a previous contribution, for the temporary ponds of the class Isoeto-Nanojuncetea in Apulia (southern Italy).

Published

2022

45. New Data on Native and Alien Vascular Flora of Sicily (Italy): New Findings and Updates

Author

Salvatore Cambria, Dario Azzaro, Orazio Caldarella, Michele Aleo, Giuseppe Bazan, Riccardo Guarino, Giancarlo Torre, Antonia Egidia Cristaudo, Vincenzo Ilardi, Alfonso La Rosa, Valentina Lucia Astrid Laface, Fabio Luchino, Francesco Mascia, Pietro Minissale, Saverio Sciandrello, Luca Tosetto, and Gianmarco Tavilla

Subjects

mediterranean flora, biodiversity records, distribution range, exotic species, floristic records, invasive plants, Botany, QK1-989

Abstract

In this paper, based on fieldwork and herbaria surveys, new data concerning the presence of 32 native and alien vascular species for Sicily (Italy) are provided. Among the native species, the occurrence of the following taxa is reported for the first time or confirmed after many decades of non-observation: Aira multiculmis, Arum maculatum, Carex flacca subsp. flacca, Mentha longifolia, Oxybasis chenopodioides, Najas minor and Xiphion junceum. Furthermore, we document the presence of three native species (Cornus mas, Juncus foliosus and Limonium avei) that, despite being repeatedly observed in Sicily and reported in the literature, are inexplicably omitted by the most recent authoritative checklists regarding the flora of Italy. Finally, fifteen alien species new to Sicily (including one new to Europe, i.e., Pyrus betulifolia) are reported and seven poorly documented allochthonous taxa are confirmed for the island, and for two of them, a status change is proposed. These new or confirmed records allow us to better define the European and national distribution of the targeted taxa and offer new insights on the native and alien flora of Sicily.

Published

2023

46. Heavy-flavor anisotropic flow at RHIC and LHC energies within a full transport approach

Author

Oliva Lucia, Sambataro Maria Lucia, Sun Yifeng, Minissale Vincenzo, Plumari Salvatore, and Greco Vincenzo

Subjects

Physics, QC1-999

Abstract

The propagation of heavy quarks (HQs) in the quark-gluon plasma (QGP) is described by means of a full Boltzmann transport approach. The nonperturbative dynamics and the interaction between HQs and the bulk is taken into account by means of a Quasi-Particle Model. Including the intense electromagnetic and vortical fields, we discuss their impact on the directed flow of neutral D mesons at RHIC energy, clarifying the role of this observable in giving information on QGP transport properties. We also show a novel study of the correlations between different flow coefficients of D mesons and soft hadrons at LHC energy within a coalescence plus fragmentation hadronization scheme and including event-by-event initial state fluctuations. This investigations can put further constraints on HQ transport coefficients towards a solid determination in comparison to the lattice QCD calculations.

Published

2023

47. Coalescence plus fragmentation approach for the hadronization mechanism of heavy hadrons from AA to pp collisions

Author

Minissale Vincenzo, Plumari Salvatore, and Greco Vincenzo

Subjects

Physics, QC1-999

Abstract

One of the present challenge for the theoretical understanding of heavy-quark hadronization is represented by the description of the measurements of heavy hadron production in pp, pA and AA collisions from RHIC to top LHC energies. The Λc/D0 ratio observed in AA collisions has a value of the order of the unity, and experimental measurements in pp collisions at both √S = 5.02 TeVs=5.02 TeV and √S = 13 TeVs=13 TeV have shown ratios for charm baryons Λc,Ξc0Λc, Ξc0 and Ωc0Ωc0 respect to D0 meson larger than that measured and expected in e+e−, ep collisions. We present an hadronization mechanism based on the coalescence and fragmentation processes, and the results obtained in AA collisions for D0 and Λc. related baryon to meson ratios at RHIC and LHC. We present moreover results obtained for the charmed hadron production in pp collisions at LHC energies assuming the formation of an hot QCD matter at finite temperature.We calculate the heavy baryon/meson ratio and the pT spectra of charmed hadrons D0. Λc0Λc+ and the recently measured Ξc baryon, finding an enhancement in comparison with the ratio observed for e+e−, ep collisions; with this approach we also predict a significant production of Qc.

Published

2023

48. The Renaissance and Golden Age of Epitaxial Dry Germanene

Author

Marco Minissale, Eric Salomon, Federica Pappalardo, Céline Martin, Matthias Muntwiler, Thierry Angot, and Guy Le Lay

Subjects

germanene, dry epitaxy, metal, 2D materials, Xenes, nanoelectronics, Crystallography, QD901-999

Abstract

Germanene, as an artificial graphene-like near room temperature topological insulator, compatible with ubiquitous silicon technology, is potentially the most promising artificial Xene for ultra-scale nanoelectronics. Here, we follow its emergence and development when prepared in situ under ultra-high vacuum in clean and controlled conditions by dry epitaxy on prominent metal surfaces (e.g., aluminum, silver, gold). We describe its predicted electronic properties and its birth in 2014, even if it was just a renaissance, as it was only understood after 51 years after an undeciphered birth certificate lost in oblivion. We emphasize the lifting of germanene flakes from an aluminum template with the tip of a scanning tunneling microscope, and their repositioning to form bilayer germanene with Bernal stacking. Finally, we discuss the growth of monolayer germanene in a single phase harboring Dirac fermions, following a bottom-up synthesis strategy by segregation on a gold thin film in epitaxy on a germanium support.

Published

2023

49. Alnus glutinosa Riparian Woodlands of Italy and Corsica: Phytosociological Classification and Floristic Diversity

Author

Saverio Sciandrello, Claudia Angiolini, Gianluigi Bacchetta, Maurizio Cutini, Jeremy Dumoulin, Mauro Fois, Antonio Gabellini, Matilde Gennai, Lorenzo Gianguzzi, Marco Landi, Pietro Minissale, Christophe Panaïotis, Marta Puglisi, Giovanni Spampinato, Gianmarco Tavilla, Valeria Tomaselli, Daniele Viciani, and Gianpietro Giusso del Galdo

Subjects

alder, hygrophilous communities, phytosociology, riparian vegetation, syntaxonomy, Agriculture

Abstract

A comparative analysis of the riparian vegetation dominated by Alnus glutinosa in Italy and Tyrrhenian islands, based on literature data and unpublished relevés, is presented. A total of 456 phytosociological relevés were processed. For the definition of plant communities and alliances, hierarchical clustering was performed by using Bray-Curtis coefficient and Detrended Correspondence Analysis ordination methods. Identification of diagnostic species of the vegetation units was performed by means of the phi fidelity index. Quantum GIS software version 3.6 was used for the interpolation of the bioclimatic variables and A. glutinosa communities. Overall, a total of 18 A. glutinosa-riparian wood communities were distinguished for Italy and Tyrrhenian islands, of which two new associations and one new subassassociation are described. The classification of the relevés showed two main vegetation groups: the first one including the plant communities of the Osmundo-Alnion alliance, and the other including the vegetation of the Ligustro vulgaris-Alnion glutinosae alliance. This latest includes the riparian meso-thermophilous communities of central and northern Italy. Within the Osmundo-Alnion alliance, two subgroups can be recognized: the first one includes the thermophilous communities of the Hyperico hircini-Alnenion glutinosae sub-alliance, mainly spread in the Tyrrhenian islands, while the second group includes the mesophilous communities attributed to the new suballiance Struthioptero-Alnenion glutinosae, widespread in central Italy and the Corsican mountains. The present paper provides the first comprehensive and exhaustive scheme of the A. glutinosa riparian woodlands diversity in Italy and Corsica.

Published

2022

50. Ecological Features and Conservation of Urtica rupestris Guss. (Urticaceae): A Narrow Endemic Species of Sicily

Author

Saverio Sciandrello, Salvatore Cambria, Gianpietro Giusso del Galdo, Pietro Minissale, Marta Puglisi, Gianmarco Tavilla, and Valeria Tomaselli

Subjects

Adiantetea capilli-veneris, conservation, demographic analysis, ecology, IUCN, plant conservation, Botany, QK1-989

Abstract

The conservation actions of endangered plant species require a clear knowledge of their habitats. Urtica rupestris Guss. (Urticaceae) is a rare endemic plant species occurring on shady cliffs in the southern-eastern part of Sicily. In the last century, the extreme anthropogenic alterations of Hyblaean plateau have caused the continuous and unrestrained fragmentation of natural habitats and consequently the reduction and disappearance of some plant species. A total of 52 vegetation plots, of which 34 are unpublished, were analyzed in order to characterize the floristic composition of the U. rupestris community. All the relevés were classified using classification and ordination methods. The species is mainly linked to shady and wet rock habitats, and only secondarily colonizes the undergrowth shrubs. According to IUCN criteria, we propose a new risk status for this species and the establishment of a new habitat (92/43CEE) for correct long-term conservation. Finally, a new association, Urtico rupestris-Adiantetum capilli-veneris, which falls within the Polysticho setiferi-Phyllitidion scolopendrii alliance (Adiantetea capilli-veneris class), was described. This study can provide useful information for the management and conservation of U. rupestris.

Published

2022