Your search keyword '"Illiano, G."' showing total 6 results

1. UV and X-ray pulse amplitude variability in the transitional millisecond pulsar PSR J1023+0038

Author

Zanon, A. Miraval, Ambrosino, F., Zelati, F. Coti, Campana, S., Papitto, A., Illiano, G., Israel, G. L., Stella, L., D'Avanzo, P., Baglio, M. C., Zanon, A. Miraval, Ambrosino, F., Zelati, F. Coti, Campana, S., Papitto, A., Illiano, G., Israel, G. L., Stella, L., D'Avanzo, P., and Baglio, M. C.

Abstract

The transitional millisecond pulsar PSR\,J1023+0038 is the first millisecond pulsar discovered to emit UV and optical pulses. Here we present the results of the UV and X-ray phase-resolved timing analysis of observations performed with the Hubble Space Telescope, \textit{XMM-Newton} and NuSTAR satellites between 2014 and 2021. Ultraviolet pulsations are detected in the high luminosity mode and disappear during low and flaring modes, similar to what is observed in the X-ray band. In the high mode, we find variability in both the UV and X-ray pulse amplitudes. The root mean square pulsed amplitude in the UV band ranges from $\sim$2.1\% down to $\sim$0.7\%, while it oscillates in the interval $5.5-12\%$ in the X-ray band. This variability is not correlated with the orbital phase, like what has been observed in the optical band. Notwithstanding the rather low statistics, we have marginal evidence that variations in the pulse amplitude do not occur simultaneously in the UV and X-ray bands. When the UV pulsed amplitude decreases below the detection threshold, no significant variation in the X-ray pulsed amplitude is observed. These oscillations in the pulse amplitude could be caused by small random variations in the mass accretion rate leading to a variation in the size of the intra-binary shock region. Finally, we find that the pulsed flux spectral distribution from the X-ray to the UV band is well fitted using a power-law relation of the form $\nu F_{\nu}^{pulsed} \sim \nu^{0.4}$. This supports the hypothesis of a common physical mechanism underlying the X-ray, UV, and optical pulsed emissions in PSR\,J1023+0038., Comment: 8 pages, 4 figures, accepted for publication in A&A

Published

2022

2. Investigating the origin of optical and X-ray pulsations of the transitional millisecond pulsar PSR J1023+0038

Author

Illiano, G., Papitto, A., Ambrosino, F., Zanon, A. Miraval, Zelati, F. Coti, Stella, L., Zampieri, L., Burtovoi, A., Campana, S., Casella, P., Cecconi, M., de Martino, D., Fiori, M., Ghedina, A., Gonzales, M., Diaz, M. Hernandez, Israel, G. L., Leone, F., Naletto, G., Ventura, H. Perez, Riverol, C., Riverol, L., Torres, D. F., Turchetta, M., Illiano, G., Papitto, A., Ambrosino, F., Zanon, A. Miraval, Zelati, F. Coti, Stella, L., Zampieri, L., Burtovoi, A., Campana, S., Casella, P., Cecconi, M., de Martino, D., Fiori, M., Ghedina, A., Gonzales, M., Diaz, M. Hernandez, Israel, G. L., Leone, F., Naletto, G., Ventura, H. Perez, Riverol, C., Riverol, L., Torres, D. F., and Turchetta, M.

Abstract

PSR J1023+0038 is the first millisecond pulsar that was ever observed as an optical and UV pulsar. So far, it is the only optical transitional millisecond pulsar. The rotation- and accretion-powered emission mechanisms hardly individually explain the observed characteristics of optical pulsations. A synergistic model, combining these standard emission processes, was proposed to explain the origin of the X-ray/UV/optical pulsations. We study the phase lag between the pulses in the optical and X-ray bands to gain insight into the physical mechanisms that cause it. We performed a detailed timing analysis of simultaneous or quasi-simultaneous observations in the X-ray band, acquired with the XMM-Newton and NICER satellites, and in the optical band, with the fast photometers SiFAP2 (mounted at the 3.6 m Telescopio Nazionale Galileo) and Aqueye+ (mounted at the 1.8 m Copernicus Telescope). We estimated the time lag of the optical pulsation with respect to that in the X-rays by modeling the folded pulse profiles with two harmonic components. Optical pulses lag the X-ray pulses by $\sim$ 150 $\mu$s in observations acquired with instruments (NICER and Aqueye+) whose absolute timing uncertainty is much smaller than the measured lag. We also show that the phase lag between optical and X-ray pulsations lies in a limited range of values, $\delta \phi \in$ (0 $-$ 0.15), which is maintained over timescales of about five years. This indicates that both pulsations originate from the same region, and it supports the hypothesis of a common emission mechanism. Our results are interpreted in the shock-driven mini pulsar nebula scenario. This scenario suggests that optical and X-ray pulses are produced by synchrotron emission from the shock that formed within a few light cylinder radii away ($\sim$ 100 km) from the pulsar, where its striped wind encounters the accretion disk inflow., Comment: 13 pages, 6 figures, 5 tables, accepted for publication in A&A

Published

2022

3. UV and X-ray pulse amplitude variability in the transitional millisecond pulsar PSR J1023+0038

Author

Zanon, A. Miraval, Ambrosino, F., Zelati, F. Coti, Campana, S., Papitto, A., Illiano, G., Israel, G. L., Stella, L., D'Avanzo, P., Baglio, M. C., Zanon, A. Miraval, Ambrosino, F., Zelati, F. Coti, Campana, S., Papitto, A., Illiano, G., Israel, G. L., Stella, L., D'Avanzo, P., and Baglio, M. C.

Abstract

The transitional millisecond pulsar PSR\,J1023+0038 is the first millisecond pulsar discovered to emit UV and optical pulses. Here we present the results of the UV and X-ray phase-resolved timing analysis of observations performed with the Hubble Space Telescope, \textit{XMM-Newton} and NuSTAR satellites between 2014 and 2021. Ultraviolet pulsations are detected in the high luminosity mode and disappear during low and flaring modes, similar to what is observed in the X-ray band. In the high mode, we find variability in both the UV and X-ray pulse amplitudes. The root mean square pulsed amplitude in the UV band ranges from $\sim$2.1\% down to $\sim$0.7\%, while it oscillates in the interval $5.5-12\%$ in the X-ray band. This variability is not correlated with the orbital phase, like what has been observed in the optical band. Notwithstanding the rather low statistics, we have marginal evidence that variations in the pulse amplitude do not occur simultaneously in the UV and X-ray bands. When the UV pulsed amplitude decreases below the detection threshold, no significant variation in the X-ray pulsed amplitude is observed. These oscillations in the pulse amplitude could be caused by small random variations in the mass accretion rate leading to a variation in the size of the intra-binary shock region. Finally, we find that the pulsed flux spectral distribution from the X-ray to the UV band is well fitted using a power-law relation of the form $\nu F_{\nu}^{pulsed} \sim \nu^{0.4}$. This supports the hypothesis of a common physical mechanism underlying the X-ray, UV, and optical pulsed emissions in PSR\,J1023+0038., Comment: 8 pages, 4 figures, accepted for publication in A&A

Published

2022

4. PediaVirus chatline: all together against COVID-19

Author

Iafusco, M, Ciampa, C, De Maddi, F, Palamone, G, Quarantiello, F, De Luca, G, Iannello, C, Pisano, S, Nocerino, A, Russo, R, Orlando, F, Iafusco, D, Aiello, A, Amorosi, W, Arena, S, Aschettino, M, Basile, P, Battista, A, Bozza, L, Cafiero, M, Caldore, M, Capuano, V, Carbone, Mg, Carbone, V, Casaburo, F, Cavaliere, P, Cerciello, L, Cervone De Martino, M, Cesiro, G, Ciampa, L, Ciao, C, Cimaduomo, L, Cioffi, L, Cirillo, C, Confetto, S, Coppola, G, Crisci, A, Cuzzolin, M, D’Avino, A, De Rosa, I, De Rosa, S, De Siena, M, Del Giudice, G, Del Zotti, F, Della Rotonda, G, D’Errico, U, Di Benedetto, L, Di Prisco, A, Di Stasio, F, Dinardo, M, Donadio, P, Emiliano, M, Esposito, A, Esposito, C, Esposito, L, Esposito, Sl, Fabiani, I, Federico, A, Ferrara, D, Ferraro, E, Filippi, A, Fiorinastro, F, Foria, G, Fusco, A, Gambardella, A, Gicchino, Mf, Giuliano, M, Grano, S, Greco, P, Iacono, A, Iafusco, F, Iannello, G, Iervolino, C, Illiano, G, Imperatore, C, Indolfi, C, Indolfi, P, Iovino, A, Iuliano, R, Kosova, P, Lieto, A, Liotta, L, Lisbino, M, Lodato, G, Loffredo, G, Maida, W, Maione, R, Maiorino, C, Marigliano, Ae, Marinelli, G, Marrone, G, Minervino, G, Napoli, M, Nappo, V, Narciso, V, Nardo, S, Noviello, D, Opallo, A, Orbinato, F, Ottaviano, C, Pace, M, Palma, R, Palmentieri, P, Palmieri, L, Palmieri, S, Parrella, G, Parrotta, G, Pellegrini, F, Peluso, C, Pesole, F, Petito, A, Pezzolla, L, Pignatelli, A, Pinto, L, Piroli, C, Piscopo, A, Pullano, F, Raineri, L, Rigante, D, Rivezzi, G, Rocco, C, Rocco, D, Rostan, E, Russo, N, Sannino, C, Sarno, C, Savanelli, L, Serra, S, Sibilio, M, Spera, M, Speranza, P, Stagni, A, Stanco, A, Torino, M, Uccello, A, Ummarino, M, Ummarino, D, Viano, V, Vigorita, S, Villani, S, Viola, R, Vitale, A, Vitiello, R, Vuillemieur, P, Zanfardino, A, Rigante D (ORCID:0000-0001-7032-7779), Iafusco, M, Ciampa, C, De Maddi, F, Palamone, G, Quarantiello, F, De Luca, G, Iannello, C, Pisano, S, Nocerino, A, Russo, R, Orlando, F, Iafusco, D, Aiello, A, Amorosi, W, Arena, S, Aschettino, M, Basile, P, Battista, A, Bozza, L, Cafiero, M, Caldore, M, Capuano, V, Carbone, Mg, Carbone, V, Casaburo, F, Cavaliere, P, Cerciello, L, Cervone De Martino, M, Cesiro, G, Ciampa, L, Ciao, C, Cimaduomo, L, Cioffi, L, Cirillo, C, Confetto, S, Coppola, G, Crisci, A, Cuzzolin, M, D’Avino, A, De Rosa, I, De Rosa, S, De Siena, M, Del Giudice, G, Del Zotti, F, Della Rotonda, G, D’Errico, U, Di Benedetto, L, Di Prisco, A, Di Stasio, F, Dinardo, M, Donadio, P, Emiliano, M, Esposito, A, Esposito, C, Esposito, L, Esposito, Sl, Fabiani, I, Federico, A, Ferrara, D, Ferraro, E, Filippi, A, Fiorinastro, F, Foria, G, Fusco, A, Gambardella, A, Gicchino, Mf, Giuliano, M, Grano, S, Greco, P, Iacono, A, Iafusco, F, Iannello, G, Iervolino, C, Illiano, G, Imperatore, C, Indolfi, C, Indolfi, P, Iovino, A, Iuliano, R, Kosova, P, Lieto, A, Liotta, L, Lisbino, M, Lodato, G, Loffredo, G, Maida, W, Maione, R, Maiorino, C, Marigliano, Ae, Marinelli, G, Marrone, G, Minervino, G, Napoli, M, Nappo, V, Narciso, V, Nardo, S, Noviello, D, Opallo, A, Orbinato, F, Ottaviano, C, Pace, M, Palma, R, Palmentieri, P, Palmieri, L, Palmieri, S, Parrella, G, Parrotta, G, Pellegrini, F, Peluso, C, Pesole, F, Petito, A, Pezzolla, L, Pignatelli, A, Pinto, L, Piroli, C, Piscopo, A, Pullano, F, Raineri, L, Rigante, D, Rivezzi, G, Rocco, C, Rocco, D, Rostan, E, Russo, N, Sannino, C, Sarno, C, Savanelli, L, Serra, S, Sibilio, M, Spera, M, Speranza, P, Stagni, A, Stanco, A, Torino, M, Uccello, A, Ummarino, M, Ummarino, D, Viano, V, Vigorita, S, Villani, S, Viola, R, Vitale, A, Vitiello, R, Vuillemieur, P, Zanfardino, A, and Rigante D (ORCID:0000-0001-7032-7779)

Abstract

On occasion of the COVID-19 pandemic, in Italy, during the outbreak period, 140 professionals, including paediatricians (the majority), general health practitioners, infectious diseases specialists, epidemiologists, neuropsychiatrists, neurologists, psychologists, pharmaceutical representatives, magistrates, predominantly Italian but also from other countries in Europe and beyond, created a chatline to share their own experiences.The results of such investigation have been reported in this report.

Published

2020

5. Città e territorio nella penisola di Misenum

Author

Illiano, G. and Illiano, G.

Published

2019

6. Città e territorio nella penisola di Misenum

Author

Illiano, G. and Illiano, G.

Published

2019