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1. Approximation results for compact Vaisman manifolds

Author

Angella, Daniele, Miceli, Marco, and Placini, Giovanni

Subjects
Mathematics - Differential Geometry, Mathematics - Complex Variables
Abstract

We extend the Tian approximation theorem for projective manifolds to a class of complex non-K\"ahler manifolds, the so-called Vaisman manifolds. More precisely, we study the problem of approximating compact regular, respectively quasi-regular, Vaisman metrics by metrics induced by immersions, respectively embeddings, into Hopf manifolds., Comment: Comments are welcome!

Published
2024

2. Time evolution of the synchrotron X-ray emission in Kepler's SNR: the effects of turbulence and shock velocity

Author

Sapienza, Vincenzo, Miceli, Marco, Petruk, Oleh, Bamba, Aya, Katsuda, Satoru, Orlando, Salvatore, Bocchino, Fabrizio, and DeLaney, Tracey

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The maximum energy of electrons in supernova remnant (SNR) shocks is typically limited by radiative losses, where the synchrotron cooling time equals the acceleration time. The low speed of shocks in a dense medium increases the acceleration time, leading to lower maximum electron energies and fainter X-ray emissions. However, in Kepler's SNR, an enhanced electron acceleration, which proceeds close to the Bohm limit, occurs in the north of its shell, where the shock is slowed by a dense circumstellar medium (CSM). To investigate whether this scenario still holds at smaller scales, we analyzed the temporal evolution of the X-ray synchrotron flux in filamentary structures, using the two deepest Chandra/ACIS X-ray observations, performed in 2006 and 2014. We examined spectra from different filaments, we measured their proper motion and calculated the acceleration to synchrotron time-scale ratios. The interaction with the turbulent and dense northern CSM induces competing effects on electron acceleration: on one hand, turbulence reduces the electron mean free path enhancing the acceleration efficiency, on the other hand, lower shock velocities increase the acceleration time-scale. In most filaments, these effects compensate each other, but in one region the acceleration time-scale exceeds the synchrotron time-scale, resulting in a significant decrease in nonthermal X-ray emission from 2006 to 2014, indicating fading synchrotron emission. Our findings provide a coherent understanding of the different regimes of electron acceleration observed in Kepler's SNR through various diagnostics., Comment: 11 pages, 8 figures, 3 tables, Accepted for publication in The Astrophysical Journal. arXiv admin note: text overlap with arXiv:2308.13435

Published
2024

3. Evidence of gradients of density and magnetic field in the remnant of Tycho's supernova

Author

Petruk, Oleh, Kuzyo, Taras, Patrii, Mariana, Chomiuk, Laura, Arias, Maria, Miceli, Marco, Orlando, Salvatore, and Bocchino, Fabrizio

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

By using surface brightness maps of Tycho's supernova remnant (SNR) in radio and X-rays, along with the properties of thermal and synchrotron emission, we have derived the post-shock density and magnetic field strength distributions over the projection of this remnant. Our analysis reveals a density gradient oriented towards the north-west, while the magnetic field strength gradient aligns with the Galactic plane, pointing eastward. Additionally, utilizing this magnetic field map, we have derived the spatial distributions of the cut-off frequency and maximum energy of electrons in Tycho's SNR. We further comment on the implications of these findings for interpreting the gamma-ray emission from Tycho's SNR., Comment: Accepted by Astrophysical Journal

Published
2024

4. Probing Shocked Ejecta in SN 1987A with XRISM-Resolve: the effects of the gate valve closed

Author

Sapienza, Vincenzo, Miceli, Marco, Bamba, Aya, Orlando, Salvatore, Lee, Shiu-Hang, Nagataki, Shigehiro, Ono, Masaomi, Katsuda, Satoru, Mori, Koji, Sawada, Makoto, Terada, Yukikatsu, Giuffrida, Roberta, and Bocchino, Fabrizio

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Supernova (SN) 1987A is widely regarded as an excellent candidate for leveraging the capabilities of the freshly launched XRISM satellite. Recent researches indicate that the X-ray emission from SN 1987A will increasingly originate from its ejecta in the years to come. In a previous study, we thoroughly examined the proficiency of XRISM-Resolve in identifying signatures of shocked ejecta in SN 1987A, synthesizing the XRISM-Resolve spectrum based on a state-of-the-art magneto-hydrodynamic simulation. However, following the satellite's launch, a technical issue arose with the XRISM instrument's gate valve, which failed to open, thereby affecting observations with the Resolve spectrometer. Here, we update our analysis, reevaluating our diagnostic approach under the assumption that the gate valve remains closed. We find that, even with the reduced instrumental capabilities, it will be possible to pinpoint the ejecta contribution through the study of the line profiles in the XRISM-Resolve spectrum of SN 1987A., Comment: 4 pages, 1 figure. Updates of the results described in Sapienza et al. 2024 (http://doi.org/10.3847/2041-8213/ad16e3). Submitted for publication in Research Notes of the AAS

Published
2024

8. Latest Evolution of the X-Ray Remnant of SN 1987A: Beyond the Inner Ring

Author

Ravi, Aravind P., Park, Sangwook, Zhekov, Svetozar A., Orlando, Salvatore, Miceli, Marco, Frank, Kari A., Broos, Patrick S., and Burrows, David N.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

Based on our Chandra imaging-spectroscopic observations, we present the latest evolution of the X-ray remnant of SN 1987A. Recent changes in the electron temperatures and volume emission measures suggest that the blast wave in SN 1987A is moving out of the dense inner ring structure, also called the equatorial ring (ER). The 0.5-2.0 keV X-ray light curve shows a linearly declining trend (by $\sim$4.5 % yr$^{-1}$) between 2016 and 2020, as the blast wave heats the hitherto unknown circumstellar medium (CSM) outside the ER. While the peak X-ray emission in the latest 0.3-8.0 keV image is still within the ER, the radial expansion rate in the 3.0-8.0 keV images suggests an increasing contribution of the X-ray emission from less dense CSM since 2012, at least partly from beyond the ER. It is remarkable that, since 2020, the declining soft X-ray flux has stabilized around $\sim$7 $\times$ 10$^{-12}$ erg s$^{-1}$ cm$^{-2}$, which may signal a contribution from the reverse-shocked outer layers of ejecta as predicted by the 3-D magneto-hydrodynamic (MHD) models. In the latest ACIS spectrum of supernova remnant (SNR) 1987A in 2022 we report a significant detection of the Fe K line at $\sim$6.7 keV, which may be due to changing thermal conditions of the X-ray emitting CSM and/or the onset of reverse shock interactions with the Fe-ejecta., Comment: 19 pages, 13 figures, resubmitted to ApJ after addressing referee's comments

Published
2024
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10. Probing Shocked Ejecta in SN 1987A: A novel diagnostic approach using XRISM-Resolve

Author

Sapienza, Vincenzo, Miceli, Marco, Bamba, Aya, Orlando, Salvatore, Lee, Shiu-Hang, Nagataki, Shigehiro, Ono, Masaomi, Katsuda, Satoru, Mori, Koji, Sawada, Makoto, Terada, Yukikatsu, Giuffrida, Roberta, and Bocchino, Fabrizio

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Supernova (SN) 1987A is one of the best candidates to exploit the capabilities of the freshly launched XRISM satellite. This celestial object offers the unique opportunity to study the evolution of a SN into a young supernova remnant. To date, the X-ray emission has been dominated by the shocked circumstellar medium (CSM), with no shocked ejecta firmly detected. However, recent studies provide compelling evidence that in the forthcoming years the X-ray emission from SN 1987A will increasingly stem from the ejecta. Our aim is to assess the proficiency of XRISM-Resolve high resolution spectrometer in pinpointing signatures of the shocked ejecta in SN 1987A. Taking advantage of a self consistent state-of-art magneto-hydrodynamic simulation that describes the evolution from SN 1987A to its remnant, we synthesized the XRISM-Resolve spectrum of SN 1987A, as it would be collected in the allocated observation during the performance verification phase, which is foreseen for 2024. Our predictions clearly show the leading role of shocked ejecta in shaping the profile of the emission lines. The Doppler broadening associated with the bulk motion along the line of sight of the rapidly expanding ejecta is shown to increase the line widths well above the values observed so far. The quantitative comparison between our synthetic spectra and the XRISM spectra will enable us to establish a strong connection between the broadened line emission and the freshly shocked ejecta. This, in turn, will allow us to retrieve the ejecta dynamics and chemical composition from the X-ray emission., Comment: 9 pages, 4 figures, 1 table, Accepted for publication in The Astrophysical Journal Letters

Published
2023

13. Evidence for proton acceleration and escape from the Puppis A SNR using Fermi-LAT observations

Author

Giuffrida, Roberta, Lemoine-Goumard, Marianne, Miceli, Marco, Gabici, Stefano, Fukui, Yasuo, and Sano, Hidetoshi

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Supernova remnants (SNRs) are the best candidates for galactic cosmic ray acceleration to relativistic energies via diffusive shock acceleration. The gamma-ray emission of SNRs can provide direct evidence of leptonic (inverse Compton and bremsstrahlung) and hadronic (proton-proton interaction and subsequently pion decay) processes. Puppis A is a ~ 4 kyr old SNR interacting with interstellar clouds which has been observed in a broad energy band, from radio to gamma-ray. We performed a morphological and spectral analysis of 14 years of observations with Fermi-LAT telescope in order to study its gamma-ray emission. We found a clear asymmetry in high-energy brightness between the eastern and western sides of the remnant, reminiscent to that observed in the X-ray emission. The eastern side, interacting with a molecular cloud, shows a spectrum which can be reproduced by a pion decay model. Moreover, we analyzed two gamma-ray sources located close to the remnant. The hardness of their spectra suggests that the gamma-ray emission can be due to particles escaping from the shock of Puppis A., Comment: Presented at the 38th International Cosmic Ray Conference (ICRC 2023), 8 pages, 2 figures, 3 tables

Published
2023

14. Unraveling the Effects of Dense Medium on a Near to Bohm-Limit Acceleration in Kepler's SNR

Author

Sapienza, Vincenzo, Miceli, Marco, Petruk, Oleh, Bamba, Aya, Orlando, Salvatore, Bocchino, Fabrizio, and Peres, Giovanni

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The maximum energy of electrons accelerated by supernova remnants (SNR) is typically limited by radiative losses. In this scenario, the synchrotron cooling time scale is equal to the acceleration time scale. On the other hand, the low propagation speed of a shock in a dense medium is expected to result in an extended acceleration time scale, thus inducing a decrease in the maximum electron energy for a given SNR age and in the X-ray nonthermal flux. The young Kepler's SNR shows an enhanced efficiency of the acceleration process, which is close to the Bohm limit in the north of its shell, where the shock is slowed down by a dense circumstellar medium. Conversely, in the south, where no interaction with a dense medium is evident and the shock speed is high, the acceleration proceeds with a higher Bohm factor. To investigate this scenario, we studied the temporal evolution of the non-thermal emission, taking advantage of two Chandra X-ray observations of Kepler's SNR (performed in 2006 and 2014). We analyzed the spectra of different filaments both in the north and south of the shell, and measured their proper motion. We found a region with low shock velocity where we measured a significant decrease in flux from 2006 to 2014. This could be the first evidence of fading synchrotron emission in Kepler's SNR. This result suggests that under a certain threshold of shock speed the acceleration process could exit the loss-limited regime., Comment: Presented at the 38th International Cosmic Ray Conference (ICRC 2023), 8 pages, 2 figures, 2 tables

Published
2023
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15. Targeting ATP2B1 impairs PI3K/Akt/FOXO signaling and reduces SARS-COV-2 infection and replication

Author

de Antonellis, Pasqualino, Ferrucci, Veronica, Miceli, Marco, Bibbo, Francesca, Asadzadeh, Fatemeh, Gorini, Francesca, Mattivi, Alessia, Boccia, Angelo, Russo, Roberta, Andolfo, Immacolata, Lasorsa, Vito Alessandro, Cantalupo, Sueva, Fusco, Giovanna, Viscardi, Maurizio, Brandi, Sergio, Cerino, Pellegrino, Monaco, Vittoria, Choi, Dong-Rac, Cheong, Jae-Ho, Iolascon, Achille, Amente, Stefano, Monti, Maria, Fava, Luca L, Capasso, Mario, Kim, Hong-Yeoul, and Zollo, Massimo

Published
2024
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16. The impact of effective matter mixing based on three-dimensional hydrodynamical models on the molecule formation in the ejecta of SN 1987A

Author

Ono, Masaomi, Nozawa, Takaya, Nagataki, Shigehiro, Kozyreva, Alexandra, Orlando, Salvatore, Miceli, Marco, and Chen, Ke-Jung

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies
Abstract

To investigate the impact of matter mixing on the formation of molecules in the ejecta of SN 1987A, time-dependent rate equations for chemical reactions are solved for one-zone and one-dimensional ejecta models of SN 1987A. The latter models are based on the one-dimensional profiles obtained by angle-averaging of the three-dimensional hydrodynamical models (Ono et al. 2020), which effectively reflect the 3D matter mixing; the impact is demonstrated, for the first time, based on three-dimensional hydrodynamical models. The distributions of initial seed atoms and radioactive $^{56}$Ni influenced by the mixing could affect the formation of molecules. By comparing the calculations for spherical cases and for several specified directions in the bipolar-like explosions in the three-dimensional hydrodynamical models, the impact is discussed. The decay of $^{56}$Ni, practically $^{56}$Co at later phases, could heat the gas and delay the molecule formation. Additionally, Compton electrons produced by the decay could ionize atoms and molecules and could destruct molecules. Several chemical reactions involved with ions such as H$^+$ and He$^+$ could also destruct molecules. The mixing of $^{56}$Ni plays a non-negligible role in both the formation and destruction of molecules through the processes above. The destructive processes of carbon monoxide and silicon monoxide due to the decay of $^{56}$Ni generally reduce the amounts. However, if the molecule formation is sufficiently delayed under a certain condition, the decay of $^{56}$Ni could locally increase the amounts through a sequence of reactions., Comment: 85 pages, 32 figures, 8 tables; accepted for publication in ApJS

Published
2023

17. Investigating Time Evolution of Thermal Emission from the Putative Neutron Star in SN 1987A for 50+ Years

Author

Dohi, Akira, Greco, Emanuele, Nagataki, Shigehiro, Ono, Masaomi, Miceli, Marco, Orlando, Salvatore, and Olmi, Barbara

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Observations collected with the Atacama Large Millimeter/submillimeter Array (ALMA) and analysis of broadband X-ray spectra have recently suggested the presence of a central compact object (CCO) in SN 1987A. However, no direct evidence of the CCO has been found yet. Here we analyze Chandra X-ray observations of SN 1987A collected in 2007 and 2018, and synthesize the 2027 Chandra and 2037 Lynx spectra of the faint inner region of SN 1987A. We estimate the temporal evolution of the upper limits of the intrinsic luminosity of the putative CCO in three epochs (2018, 2027 and 2037). We find that these upper limits are higher for higher neutron star (NS) kick velocities due to the increased absorption from the surrounding cold ejecta. We compare NS cooling models with both the intrinsic luminosity limits obtained from the X-ray spectra, and the ALMA constraints with the assumption that the observed blob of SN 1987A is primarily heated by thermal emission. We find that the synthetic Lynx spectra are crucial to constrain physical properties of the CCO, which will be confirmed by future observations in the 2040s. We draw our conclusions based on two scenarios, namely the non-detection and detection of NS by Lynx. If the NS is not detected, its kick velocity should be ~700 km/s. Furthermore, the non-detection of the NS would suggest rapid cooling processes around the age of 40 years, implying strong crust superfluidity. Conversely, in the case of NS detection, the mass of the NS envelope must be high., Comment: 37 pages, 17 figures, 6 tables, accepted for publication in ApJ

Published
2023
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18. Plasma heating and particle acceleration in collisionless shocks through astrophysical observations

Author

Miceli, Marco

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Supernova remnants (SNRs), the products of stellar explosions, are powerful astrophysical laboratories, which allow us to study the physics of collisionless shocks, thanks to their bright electromagnetic emission. Blast wave shocks generated by supernovae (SNe) provide us with an observational window to study extreme conditions, characterized by high Mach (and Alfvenic Mach) numbers, together with powerful nonthermal processes. In collisionless shocks, temperature equilibration between different species may not be reached at the shock front. In this framework, different particle species might be heated at different temperatures (depending on their mass) in the post-shock medium of SNRs. SNRs are also characterized by a broadband nonthermal emission stemming at the shock front as a result of nonthermal populations of leptons and hadrons. These particles, known as cosmic rays, are accelerated up to ultrarelativistic energies via diffusive shock acceleration. If SNRs lose a significant fraction of their ram energy to accelerate cosmic rays, the shock dynamics should be altered with respect to the adiabatic case. This shock modification should result in an increase of the total shock compression ratio with respect to the Rankine-Hugoniot value of 4. Here I show that the combination of X-ray high resolution spectroscopy (to measure ion temperatures) and moderate resolution spectroscopy (for a detailed diagnostic of the post-shock density) can be exploited to study both the heating mechanism and the particle acceleration in collisionless shocks. I report on new results in the temperatures measured for different ion species in the remnant of SN 1987A. I also discuss evidence of shock modification recently obtained in the remnant of SN 1006 a. D., where the shock compression ratio increases significantly as the angle between the shock velocity and the ambient magnetic field is reduced., Comment: Author's preprint. Accepted for publication in Plasma Physics and Controlled Fusion after minor revisions

Published
2023
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19. The supernova remnant SN 1006 as a Galactic particle accelerator

Author

Giuffrida, Roberta, Miceli, Marco, Caprioli, Damiano, Decourchelle, Anne, Vink, Jacco, Orlando, Salvatore, Bocchino, Fabrizio, Greco, Emanuele, and Peres, Giovanni

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The origin of cosmic rays is a pivotal open issue of high-energy astrophysics. Supernova remnants are strong candidates to be the Galactic factory of cosmic rays, their blast waves being powerful particle accelerators. However, supernova remnants can power the observed flux of cosmic rays only if they transfer a significant fraction of their kinetic energy to the accelerated particles, but conclusive evidence for such efficient acceleration is still lacking. In this scenario, the shock energy channeled to cosmic rays should induce a higher post-shock density than that predicted by standard shock conditions. Here we show this effect, and probe its dependence on the orientation of the ambient magnetic field, by analyzing deep X-ray observations of the Galactic remnant of SN 1006. By comparing our results with state-of-the-art models, we conclude that SN 1006 is an efficient source of cosmic rays and obtain an observational support for the quasi-parallel acceleration mechanism., Comment: Published in Nature Communications. The published version of the paper, including supplementary material, is freely available online here https://doi.org/10.1038/s41467-022-32781-4 or as a PDF here https://www.nature.com/articles/s41467-022-32781-4.pdf

Published
2022
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20. A spatially resolved study of hard X-ray emission in Kepler's SNR: indications of different regimes of particle acceleration

Author

Sapienza, Vincenzo, Miceli, Marco, Bamba, Aya, Katsuda, Satoru, Nagayoshi, Tsutomu, Terada, Yukikatsu, Bocchino, Fabrizio, Orlando, Salvatore, and Peres, Giovanni

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Synchrotron X-ray emission in young supernova remnants (SNRs) is a powerful diagnostic tool to study the population of high energy electrons accelerated at the shock front and the acceleration process. We performed a spatially resolved spectral analysis of NuSTAR and XMM-Newton observations of the young Kepler's SNR, aiming to study in detail its non-thermal emission in hard X-rays. We selected a set of regions all around the rim of the shell and extracted the corresponding spectra. The spectra were analyzed by adopting a model of synchrotron radiation in the loss-limited regime, to constrain the dependence of the cutoff energy of the synchrotron radiation on the shock velocity. We identify two different regimes of particle acceleration, characterized by different Bohm factors. In the north, where the shock interacts with a dense circumstellar medium (CSM), we found a more efficient acceleration than in the south, where the shock velocity is higher and there are no signs of shock interaction with dense CSM. Our results suggest an enhanced efficiency of the acceleration process in regions where the shock-CSM interaction generates an amplified and turbulent magnetic field. By combining hard X-ray spectra with radio and $\gamma-$ray observations of Kepler's SNR, we modelled the spectral energy distribution. In the light of our results we propose that the observed $\gamma-$ray emission is mainly hadronic, and originates in the northern part of the shell., Comment: 16 pages, 7 figures, 5 tables, Accepted for publication in ApJ

Published
2022
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22. Additional evidence for a pulsar wind nebula in the heart of SN 1987A from multi-epoch X-ray data and MHD modeling

Author

Greco, Emanuele, Miceli, Marco, Orlando, Salvatore, Olmi, Barbara, Bocchino, Fabrizio, Nagataki, Shigehiro, Sun, Lei, Vink, Jacco, Sapienza, Vincenzo, Ono, Masaomi, Dohi, Akira, and Peres, Giovanni

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Since the day of its explosion, supernova (SN) 1987A has been closely monitored to study its evolution and to detect its central compact relic. In fact, the formation of a neutron star is strongly supported by the detection of neutrinos from the SN. However, besides the detection in the Atacama Large Millimeter/submillimeter Array (ALMA) data of a feature that is compatible with the emission arising from a proto-pulsar wind nebula (PWN), the only hint for the existence of such elusive compact object is provided by the detection of hard emission in NuSTAR data up to ~ 20 keV. We report on the simultaneous analysis of multi-epoch observations of SN 1987A performed with Chandra, XMM-Newton and NuSTAR. We also compare the observations with a state-of-the-art 3D magnetohydrodynamic (MHD) simulation of SN 1987A. A heavily absorbed power-law, consistent with the emission from a PWN embedded in the heart of SN 1987A, is needed to properly describe the high-energy part of the observed spectra. The spectral parameters of the best-fit power-law are in agreement with the previous estimate, and exclude diffusive shock acceleration as a possible mechanism responsible for the observed non-thermal emission. The information extracted from our analysis are used to infer the physical characteristics of the pulsar and the broad-band emission of its nebula, in agreement with the ALMA data. Analysis of the synthetic spectra also show that, in the near future, the main contribution to Fe K emission line will originate in the outermost shocked ejecta of SN 1987A., Comment: Accepted for publication in ApJ

Published
2022
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25. Spectral Evolution of the X-Ray Remnant of SN 1987A: A High-Resolution $Chandra$ HETG Study

Author

Ravi, Aravind P., Park, Sangwook, Zhekov, Svetozar A., Miceli, Marco, Orlando, Salvatore, Frank, Kari A., and Burrows, David N.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Based on observations with the $Chandra$ X-ray Observatory, we present the latest spectral evolution of the X-ray remnant of SN 1987A (SNR 1987A). We present a high-resolution spectroscopic analysis using our new deep ($\sim$312 ks) $Chandra$ HETG observation taken in March 2018, as well as archival $Chandra$ gratings spectroscopic data taken in 2004, 2007, and 2011 with similarly deep exposures ($\sim$170 - 350 ks). We perform detailed spectral model fits to quantify changing plasma conditions over the last 14 years. Recent changes in electron temperatures and volume emission measures suggest that the shocks moving through the inner ring have started interacting with less dense circumstellar material, probably beyond the inner ring. We find significant changes in the X-ray line flux ratios (among H- and He-like Si and Mg ions) in 2018, consistent with changes in the thermal conditions of the X-ray emitting plasma that we infer based on the broadband spectral analysis. Post-shock electron temperatures suggested by line flux ratios are in the range $\sim$0.8 - 2.5 keV as of 2018. We do not yet observe any evidence of substantial abundance enhancement, suggesting that the X-ray emission component from the reverse-shocked metal-rich ejecta is not yet significant in the observed X-ray spectrum., Comment: Accepted for publication by ApJ. 23 pages, 14 figures, and 3 tables

Published
2021
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26. X-ray emitting structures in the Vela SNR: ejecta anisotropies and progenitor stellar wind residuals

Author

Sapienza, Vincenzo, Miceli, Marco, Peres, Giovanni, Bocchino, Fabrizio, Orlando, Salvatore, Greco, Emanuele, Combi, Jorge Ariel, García, Federico, and Sasaki, Manami

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The Vela supernova remnant (SNR) shows several ejecta fragments protruding beyond the forward shock (shrapnel). Recent studies have revealed high Si abundance in two shrapnel (A and G), located in opposite directions with respect to the SNR center. This suggests the possible existence of a Si-rich jet-counterjet structure. We analyzed an XMM-Newton observation of a bright clump, behind shrapnel G, which lies along the direction connecting A and G. The aim is to study the physical and chemical properties of this clump to ascertain whether it is part of this putative jet-like structure. We produced background-corrected and adaptively-smoothed count-rate images and median photon energy maps, and performed a spatially resolved spectral analysis. We identified two structures with different physical properties. The first one is remarkably elongated along the direction connecting A and G. Its X-ray spectrum is much softer than that of the other two shrapnel, to the point of hindering the determination of the Si abundance, however its physical and chemical properties are consistent with those of shrapnel A and G. The second structure, running along the southeast-northwest direction, has a higher temperature and appears like a thin filament. By analyzing the ROSAT data, we have found that this filament is part of a very large and coherent structure that we identified in the western rim of the shell. We obtained a thorough description of the tail of Shrapnel G. In addition we discovered a coherent and very extended feature that we interpret as a signature of an earlier interaction of the remnant with the stellar wind of its progenitor star. The peculiar Ne/O ratio we found in the wind residual may be suggestive of a Wolf-Rayet progenitor for Vela SNR, though further analysis is required to address this point., Comment: 10 pages, 13 figures, Accepted to A&A

Published
2021
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27. Indication of a Pulsar Wind Nebula in the hard X-ray emission from SN 1987A

Author

Greco, Emanuele, Miceli, Marco, Orlando, Salvatore, Olmi, Barbara, Bocchino, Fabrizio, Nagataki, Shigehiro, Ono, Masaomi, Dohi, Akira, and Peres, Giovanni

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Since the day of its explosion, SN 1987A (SN87A) was closely monitored with the aim to study its evolution and to detect its central compact relic. The detection of neutrinos from the supernova strongly supports the formation of a neutron star (NS). However, the constant and fruitless search for this object has led to different hypotheses on its nature. Up to date, the detection in the ALMA data of a feature somehow compatible with the emission arising from a proto Pulsar Wind Nebula (PWN) is the only hint of the existence of such elusive compact object. Here we tackle this 33-years old issue by analyzing archived observations of SN87A performed Chandra and NuSTAR in different years. We firmly detect nonthermal emission in the $10-20$ kev energy band, due to synchrotron radiation. The possible physical mechanism powering such emission is twofold: diffusive shock acceleration (DSA) or emission arising from an absorbed PWN. By relating a state-of-the-art magneto-hydrodynamic simulation of SN87A to the actual data, we reconstruct the absorption pattern of the PWN embedded in the remnant and surrounded by cold ejecta. We found that, even though the DSA scenario cannot be firmly excluded, the most likely scenario that well explains the data is the PWN emission., Comment: Accepted for publication in ApJ Letters

Published
2021
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29. 3D modeling from the onset of the SN to the full-fledged SNR: Role of an initial ejecta anisotropy on matter mixing

Author

Tutone, Antonio, Orlando, Salvatore, Miceli, Marco, Ustamujic, Sabina, Ono, Masaomi, Nagataki, Shigehiro, Ferrand, Gilles, Greco, Emanuele, Peres, Giovanni, Warren, Donald C., and Bocchino, Fabrizio

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The aim of this work is to bridge the gap between CC SNe and their remnants by investigating how post-explosion anisotropies in the ejecta influence the structure and chemical properties of the remnant at later times. We performed three-dimensional magneto-hydrodynamical simulations starting soon after the SN event and following the evolution of the system in the circumstellar medium (consisting of the wind of the stellar progenitor), for 5000 years, obtaining the physical scenario of a SNR. Here we focused the analysis on the case of a progenitor red supergiant of 19.8 M_sun. We also investigated how a post-explosion large-scale anisotropy in the SN affects the ejecta distribution and the matter mixing of heavy elements in the remnant, during the first 5000 years of evolution. In the case of a spherically symmetric SN explosion without large-scale anisotropies, the remnant roughly keeps memory of the original onion-like layering of ejecta soon after the SN event. Nevertheless, as the reverse shock hits the ejecta, the element distribution departs from a homologous expansion, because of the slowing down of the outermost ejecta layers due to interaction with the reverse shock. In the case of a large-scale anisotropy developed after the SN, we found that the chemical stratification in the ejecta can be strongly modified and the original onion-like layering is not preserved. The anisotropy may cause spatial inversion of ejecta layers, for instance leading to Fe/Si-rich ejecta outside the O shell, and may determine the formation of Fe/Si-rich jet-like features that may protrude the remnant outline. The level of matter mixing and the properties of the jet-like feature are sensitive to the initial physical (density and velocity) and geometrical (size and position) initial characteristics of the anisotropy., Comment: 16 pages, 14 figures, accepted to A&A

Published
2020
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30. Unveiling pure-metal ejecta X-ray emission in supernova remnants through their radiative recombination continuum

Author

Greco, Emanuele, Vink, Jacco, Miceli, Marco, Orlando, Salvatore, Domcek, Vladimir, Zhou, Ping, Bocchino, Fabrizio, and Peres, Giovanni

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Spectral analysis of X-ray emission from ejecta in supernova remnants (SNRs) is hampered by the low spectral resolution of CCD cameras, which creates a degeneracy between the best-fit values of abundances and emission measure. The combined contribution of shocked ambient medium and ejecta to the X-ray emission complicates the determination of the ejecta mass and chemical composition, leading to big uncertainties in mass estimates and it can introduce a bias in the comparison between the observed ejecta composition and the yields predicted by explosive nucleosynthesis. We explore the capabilities of present and future spectral instruments with the aim of identifying a spectral feature which may allow us to discriminate between metal-rich and pure-metal plasmas in X-ray spectra of SNRs. We studied the behavior of the most common X-ray emission processes of an optically thin plasma in the high-abundance regime. We investigated spectral features of bremsstrahlung, radiative recombination continua (RRC) and line emission, by exploring a wide range of chemical abundances, temperatures and ionization parameters. We synthesized X-ray spectra from a 3D hydrodynamic (HD) simulation of Cas A, by using the response matrix from the Chandra/ACIS-S CCD detector and that of the XRISM/Resolve X-ray calorimeter. We found that a bright RRC shows up when the plasma is made of pure-metal ejecta, and a high spectral resolution is needed to identify this ejecta signature. We verified the applicability of our novel diagnostic tool and we propose a promising target for the future detection of such spectral feature: the southeastern Fe-rich clump of Cas A. While there is no way to unambiguously reveal pure-metal ejecta emission with CCD detectors, X-ray calorimeters will be able to pinpoint the presence of pure-metal RRC and to recover correctly absolute mass and the chemical composition of the ejecta., Comment: 13 pages, 12 figures, accepted for publication in A&A

Published
2020
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31. Deep XMM-Newton Observations Reveal the Origin of Recombining Plasma in the Supernova Remnant W44

Author

Okon, Hiromichi, Tanaka, Takaaki, Uchida, Hiroyuki, Yamaguchi, Hiroya, Tsuru, Takeshi Go, Seta, Masumichi, Smith, Randall K., Yoshiike, Satoshi, Orlando, Salvatore, Bocchino, Fabrizio, and Miceli, Marco

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Recent X-ray studies revealed over-ionized recombining plasmas (RPs) in a dozen mixed-morphology (MM) supernova remnants (SNRs). However, the physical process of the over-ionization has not been fully understood yet. Here we report on spatially resolved spectroscopy of X-ray emission from W44, one of the over-ionized MM-SNRs, using XMM-Newton data from deep observations, aiming to clarify the physical origin of the over-ionization. We find that combination of low electron temperature and low recombination timescale is achieved in the region interacting with dense molecular clouds. Moreover, a clear anti-correlation between the electron temperature and the recombining timescale is obtained from each of the regions with and without the molecular clouds. The results are well explained if the plasma was over-ionized by rapid cooling through thermal conduction with the dense clouds hit by the blast wave of W44. Given that a few other over-ionized SNRs show evidence for adiabatic expansion as the major driver of the rapid cooling, our new result indicates that both processes can contribute to over-ionization in SNRs, with the dominant channel depending on the evolutionary stage., Comment: 10 pages, 7 figures Accepted for publication in ApJ

Published
2019
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32. Matter Mixing in Aspherical Core-collapse Supernovae: Three-dimensional Simulations with Single Star and Binary Merger Progenitor Models for SN 1987A

Author

Ono, Masaomi, Nagataki, Shigehiro, Ferrand, Gilles, Takahashi, Koh, Umeda, Hideyuki, Yoshida, Takashi, Orlando, Salvatore, and Miceli, Marco

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

We perform three-dimensional hydrodynamic simulations of aspherical core-collapse supernovae focusing on the matter mixing in SN 1987A. The impacts of four progenitor (pre-supernova) models and parameterized aspherical explosions are investigated. The four pre-supernova models include a blue supergiant (BSG) model based on a slow merger scenario developed recently for the progenitor of SN 1987A (Urushibata et al. 2018). The others are a BSG model based on a single star evolution and two red supergiant (RSG) models. Among the investigated explosion (simulation) models, a model with the binary merger progenitor model and with an asymmetric bipolar-like explosion, which invokes a jetlike explosion, best reproduces constraints on the mass of high velocity $^{56}$Ni, as inferred from the observed [Fe II] line profiles. The advantage of the binary merger progenitor model for the matter mixing is the flat and less extended $\rho \,r^3$ profile of the C+O core and the helium layer, which may be characterized by the small helium core mass. From the best explosion model, the direction of the bipolar explosion axis (the strongest explosion direction), the neutron star (NS) kick velocity, and its direction are predicted. Other related implications and future prospects are also given., Comment: Accepted for publication in The Astrophysical Journal, 62 pages, 26 figures, 3 tables

Published
2019
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33. Spatially resolved X-ray study of supernova remnants that host magnetars: Implication of their fossil field origin

Author

Zhou, Ping, Vink, Jacco, Safi-Harb, Samar, and Miceli, Marco

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

Magnetars are regarded as the most magnetized neutron stars in the Universe. Aiming to unveil what kinds of stars and supernovae can create magnetars, we have performed a state-of-the-art spatially resolved spectroscopic X-ray study of the supernova remnants (SNRs) Kes 73, RCW 103, and N49, which host magnetars 1E 1841-045, 1E 161348-5055, and SGR 0526-66, respectively. The three SNRs are O- and Ne-enhanced and are evolving in the interstellar medium with densities of >1--2 cm$^{-3}$. The metal composition and dense environment indicate that the progenitor stars are not very massive. The progenitor masses of the three magnetars are constrained to be < 20 Msun (11--15 Msun for Kes 73, < 13 Msun for RCW 103, and ~13 --17 Msun for N49). Our study suggests that magnetars are not necessarily made from very massive stars, but originate from stars that span a large mass range. The explosion energies of the three SNRs range from $10^{50}$ erg to ~2$\times 10^{51}$ erg, further refuting that the SNRs are energized by rapidly rotating (millisecond) pulsars. We report that RCW 103 is produced by a weak supernova explosion with significant fallback, as such an explosion explains the low explosion energy (~$10^{50}$ erg), small observed metal masses ($M_{\rm O}\sim 4\times 10^{-2}$ Msun and $M_{\rm Ne}\sim 6\times 10^{-3}$ Msun), and sub-solar abundances of heavier elements such as Si and S. Our study supports the fossil field origin as an important channel to produce magnetars, given the normal mass range ($M_{\rm ZAMS} < 20$ Msun) of the progenitor stars, the low-to-normal explosion energy of the SNRs, and the fact that the fraction of SNRs hosting magnetars is consistent with the magnetic OB stars with high fields., Comment: 13 pages, 8 figures, published in A&A

Published
2019
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39. Collisionless shock heating of heavy ions in SN 1987A

Author

Miceli, Marco, Orlando, Salvatore, Burrows, David N., Frank, Kari A., Argiroffi, Costanza, Reale, Fabio, Peres, Giovanni, Petruk, Oleh, and Bocchino, Fabrizio

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Astrophysical shocks at all scales, from those in the heliosphere up to the cosmological shock waves, are typically "collisionless", because the thickness of their jump region is much shorter than the collisional mean free path. Across these jumps, electrons, protons, and ions are expected to be heated at different temperatures. Supernova remnants (SNRs) are ideal targets to study collisionless processes because of their bright post-shock emission and fast shocks. Although optical observations of Balmer-dominated shocks in young SNRs showed that the post-shock proton temperature is higher than the electron temperature, the actual dependence of the post-shock temperature on the particle mass is still widely debated. We tackle this longstanding issue through the analysis of deep multi-epoch and high-resolution observations of the youngest nearby supernova remnant, SN 1987A, made with the Chandra X-ray telescope. We introduce a novel data analysis method by studying the observed spectra in close comparison with a dedicated full 3-D hydrodynamic simulation. The simulation is able to reproduce self-consistently the whole broadening of the spectral lines of many ions altogether. We can therefore measure the post shock temperature of protons and selected ions through comparison of the model with observations. We have obtained information about the heating processes in collisional shocks by finding that the ion to proton temperature ratio is always significantly higher than one and increases linearly with the ion mass for a wide range of masses and shock parameters., Comment: The final version of this manuscript (including Methods) is published in Nature Astronomy and is publicly available at this link: https://rdcu.be/bhO7Z

Published
2019
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43. Young Stars and their Variability with LSST

Author

Bonito, Rosaria, Hartigan, Patrick, Venuti, Laura, Guarcello, Mario, Prisinzano, Loredana, Argiroffi, Costanza, Messina, Sergio, Johns-Krull, Christopher, Feigelson, Eric, Stauffer, John, Giannini, Teresa, Antoniucci, Simone, Sciortino, Salvo, Micela, Giusi, Pillitteri, Ignazio, Fedele, Davide, Podio, Linda, Damiani, Francesco, McGehee, Peregrine, Street, Rachel, Gizis, John, Sacco, Germano, Magrini, Laura, Flaccomio, Ettore, Orlando, Salvatore, Miceli, Marco, Stelzer, Beate, Fuchs, Julien, Chen, Sophia, Pikuz, Sergey, Frasca, Antonio, Biazzo, Katia, Codella, Claudio, Pastorello, Andrea, Alcala', Juan Manuel, Covino, Elvira, Bianchi, Eleonora, and Nisini, Brunella

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

Young stars exhibit short-term photometric variability caused by mass accretion events from circumstellar disks, the presence of dusty warps within the inner disks, starspots that rotate across the stellar surfaces, and flares. Long-term variability also occurs owing to starspot longevity and cycles, and from changes in stellar angular momenta and activity as the stars age. We propose to observe the Carina star-forming region in different bands with a cadence of 30 minutes every night for one week per year to clarify the nature of both the short-term and long-term variability of the thousands of young stars in this region. By obtaining well-sampled multicolor lightcurves of this dense young cluster, LSST would acquire the first statistically significant data on how these objects vary on both short and long timescales. This information will allow us to relate the observed variability to stellar properties such as mass, age, binarity, and to environmental properties such as location within or exterior to the H II region, and to the presence or absence of a circumstellar disk., Comment: Contribution in response of the Call for White Papers on LSST Cadence Optimization

Published
2018

44. Spatially resolved broad-band synchrotron emission from the non-thermal limbs of SN1006

Author

Li, Jiang-Tao, Ballet, Jean, Miceli, Marco, Zhou, Ping, Vink, Jacco, Chen, Yang, Acero, Fabio, Decourchelle, Anne, and Bregman, Joel N.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We present ~400ks NuSTAR observations of the northeast (NE) and southwest (SW) non-thermal limbs of the Galactic SNR SN1006. We discovered three sources with X-ray emission detected at >50keV. Two of them are identified as background AGN. We extract the NuSTAR spectra from a few regions along the non-thermal limbs and jointly analyze them with the XMM-Newton spectra and the radio data. The broad-band radio/X-ray spectra can be well described with a synchrotron emission model from a single population of CR electrons with a power law energy distribution and an exponential cutoff. The power law index of the electron particle distribution function (PDF) is ~1.88-1.95 for both the NE and SW limbs, and we do not find significant evidence for a variation of this index at different energy (curvature). There are significant spatial variations of the synchrotron emission parameters. The highest energy electrons are accelerated in regions with the lowest expansion velocity, which is opposite to what has been found in the Tycho's SNR. In addition to a gradual steepening of synchrotron emission from the center of the non-thermal limbs to larger azimuthal angles, we also find that both the emission spectrum and the PDF are significantly flatter in three regions in the SW limb where the shock encounters higher density ambient medium. The NE limb also shows significantly higher cutoff energy in the PDF than the SW limb. By comparing with the roughly symmetric TeV emission and largely asymmetric GeV emission from the two non-thermal limbs, we conclude that the asymmetry in the ambient medium and magnetic fields may have largely modified the acceleration and emission of CR leptons., Comment: 21 pages, 14 figures, 7 tables, ApJ in press

Published
2018
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45. Discovery of a jet-like structure with overionized plasma in the SNR IC443

Author

Greco, Emanuele, Miceli, Marco, Orlando, Salvatore, Peres, Giovanni, Troja, Eleonora, and Bocchino, Fabrizio

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

IC443 is a supernova remnant located in a quite complex environment since it interacts with nearby clouds. Indications for the presence of overionized plasma have been found though the possible physical causes of overionization are still debated. Moreover, because of its peculiar position and proper motion, it is not clear if the pulsar wind nebula (PWN) within the remnant is the relic of the IC443 progenitor star or just a rambling one seen in projection on the remnant. Here we address the study of IC443 plasma in order to clarify the relationship PWN-remnant, the presence of overionization and the origin of the latter. We analyzed two \emph{XMM-Newton} observations producing background-subtracted, vignetting-corrected and mosaicked images in two different energy bands and we performed a spatially resolved spectral analysis of the X-ray emission. We identified an elongated (jet-like) structure with Mg-rich plasma in overionization. The head of the jet is interacting with a molecular cloud and the jet is aligned with the position of the PWN at the instant of the supernova explosion. Interestingly, the direction of the jet of ejecta is somehow consistent with the direction of the PWN jet. Our discovery of a jet of ejecta in IC443 enlarge the sample of core-collapse SNRs with collimated ejecta structures. IC443's jet is the first one which shows overionized plasma, possibly associated with the adiabatic expansion of ejecta. The match between the jet's direction and the original position of the PWN strongly supports the association between the neutron star and IC443., Comment: Accepted for publication in A&A

Published
2018
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46. Detection of X-ray flares from AX J1714.1-3912, the unidentified source near RX J1713.7-3946

Author

Miceli, Marco and Bamba, Aya

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Molecular clouds are predicted to emit nonthermal X-rays when they are close to particle-accelerating supernova remnants (SNRs), and the hard X-ray source AX J1714.1-3912, near the SNR RX J1713.7-3946, has long been considered a candidate for diffuse nonthermal emission associated with cosmic rays diffusing from the remnant to a closeby molecular cloud. We aim at ascertaining the nature of this source by analyzing two dedicated X-ray observations performed with Suzaku and Chandra. We extracted images from the data in various energy bands, spectra, and light curves and studied the long-term evolution of the X-ray emission on the basis of the ~4.5 yr time separation between the two observations. We found that there is no diffuse emission associated with AX J1714.1-3912, which is instead the point-like source CXOU J171343.9-391205. We discovered rapid time variability (timescale ~1 ks), together with a high intrinsic absorption and a hard nonthermal spectrum (power law with photon index Gamma~1.4). We also found that the X-ray flux of the source drops down by 1-2 orders of magnitude on a timescale of a few years. Our results suggest a possible association between AX J1714.1-3912 and a previously unknown supergiant fast X-ray transient, although further follow-up observations are necessary to prove this association definitively., Comment: Accepted for publication in Astronomy & Astrophysics. The new version includes a note after acceptance

Published
2018
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48. Meniscal Extrusion Correlates with Symptom Severity in Knee Osteoarthritis: An Ultrasound and Magnetic Resonance Imaging Analysis of 100 Patients.

Author

Tortorella, Fabio, Boffa, Angelo, Di Martino, Alessandro, Andriolo, Luca, Facchini, Giancarlo, Di Carlo, Maddalena, Miceli, Marco, Zaffagnini, Stefano, and Filardo, Giuseppe

Subjects
MAGNETIC resonance imaging, IMAGE analysis, KNEE osteoarthritis, STANDING position, MAGNETIC resonance
Abstract

Purpose: The aim of this study was to investigate how meniscal extrusion, assessed either with ultrasounds or magnetic resonance (MR), correlates with clinical symptoms in knee osteoarthritis (OA). Methods: One hundred patients with symptomatic knee OA were enrolled (60.3 ± 9.7 years). Patients underwent MR evaluation and ultrasound analyses (clinostatic and orthostatic positions). Patients were clinically evaluated through IKDC, KOOS, WOMAC, VAS, and Tegner scores. Correlation analyses were performed between meniscal extrusion extent and clinical scores. Lower (<4 mm) and higher extrusion (≥4 mm) groups were also compared. Results: The identification of low/high extrusion was 56/44 (MR) and 45/55 (ultrasounds) for patients with medial meniscus and 72/28 (MR) and 57/43 (ultrasounds) for patients with lateral meniscus. Meniscal extrusion correlated with symptoms (p < 0.05) with worse clinical findings in patients with higher extrusion, particularly for the lateral meniscus. For the medial meniscus, more differences were found between lower and higher extrusion groups with ultrasounds than MR, especially in the orthostatic position, while for the lateral meniscus, similar trends were documented with both methods. Conclusions: Extrusion of both menisci correlates with knee OA symptoms, with a stronger correlation for the lateral meniscus. Ultrasounds performed in the standing position identify more patients with meniscal extrusion and correlate better than MR with clinical findings. [ABSTRACT FROM AUTHOR]

Published
2024
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49. Arterial Embolization with n-Butyl-Cyanoacrylate for a Large Gluteal Intramuscular Hemangioma: A Case Report.

Author

Papalexis, Nicolas, Carta, Michela, Peta, Giuliano, Quarchioni, Simone, Di Carlo, Maddalena, Miceli, Marco, and Facchini, Giancarlo

Subjects
COLOR Doppler ultrasonography, THERAPEUTIC embolization, SOFT tissue tumors, PAIN management, ANALGESIA
Abstract

Background and Clinical Significance: We wished to review the use of arterial embolization with n-butyl-cyanoacrylate (NBCA) to treat large high-flow vascular malformations due to its rapid polymerization and ability to permanently occlude large and small vessels. Case Presentation: A 52-year-old male presented with a two-year history of progressively worsening pain and swelling in the right gluteal area. Imaging techniques (color Doppler ultrasonography, CT, DSA, and MRI) were utilized for the diagnosis of a large high-flow intramuscular hemangioma. The mass displaced the surrounding tissues but showed no signs of lymphadenopathy or distant metastasis. The treatment involved targeting different arterial feeders over several sessions. Each procedure used NBCA–Lipiodol under fluoroscopic guidance, progressively reducing the malformation's size and alleviating his symptoms. After the final embolization, the patient showed significant pain relief and a reduction in the size of the malformation, confirmed by follow-up imaging, demonstrating NBCA embolization's effectiveness. The protocol's safety and efficacy in this context are discussed. Conclusions: Arterial embolization with NBCA is a promising treatment for large high-flow vascular malformations, providing symptom relief and reductions in lesion size. While this case report highlights the procedure's efficacy, further research is needed for a broader understanding of its long-term outcomes and potential complications. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Dimensional assessment on baseline MRI of soft-tissue sarcomas: longest diameter, sum and product of diameters, and volume—which is the best measurement method to predict patients' outcomes?

Author

D'Agostino, Valerio, Ponti, Federico, Martella, Claudia, Miceli, Marco, Sambri, Andrea, De Paolis, Massimiliano, Donati, Davide Maria, Bianchi, Giuseppe, Longhi, Alessandra, Crombé, Amandine, and Spinnato, Paolo

Abstract

Purpose: The longest diameter (LD) is a strong prognostic factor for patients with soft-tissue sarcoma (STS). Other dimensional assessments, such as the sum of diameters (SoD), product of diameters (PoD), and volume (3D-COG - proposed by the Children Oncology Group), can be rapidly performed; however, their prognostic values have never been compared to LD. Our goal was to investigate their performance in improving patients' prognostication for STS of the lower limbs. Methods: All consecutive adults managed with curative intent at our sarcoma reference center for a newly diagnosed STS of the lower limbs between 2000 and 2017, with pre-treatment MRI, were included in this retrospective study. Multivariable Cox regression models were trained to predict metastasis-free survival (MFS) in a Training cohort of 66.7% patients based on LD, PoD, SoD, or 3D-COG (and systematically including age, histologic grade, histotype, radiotherapy, chemotherapy, and surgical margins as covariables). The models were then compared on a validation cohort of 33.3% patients using concordance indices (c-index). The same approach was applied for overall survival (OS) and local relapse-free survival (LFS). Measurement reproducibility among three readers was evaluated with an intraclass correlation coefficient (ICC). Results: 382 patients were included in the survival modeling (72/253 [28.5%] metastatic relapses in Training and 36/129 [27.9%] metastatic relapses in Validation). Higher dimensions were associated with lower MFS (multivariable hazard ratio [HR] = 2.44 and P = 0.0018 for LD; HR = 1.88 and P = 0.0009 for PoD, HR = 1.52 and P = 0.0041 for SoD; and HR = 1.08 and P = 0.0195 for 3D-COG). Higher c-indices were obtained with PoD model in Training (c-index = 0.772) and Validation (c-index = 0.688), but they were not significantly higher than those obtained with LD model. None of the measurements was associated with LFS or OS. All measurements demonstrated excellent ICC (> 0.95). Conclusion: Regarding its simplicity and good performance, LD appeared as the best metric to incorporate in prognostic models and nomograms for MFS. [ABSTRACT FROM AUTHOR]

Published
2024
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