3,435 research outputs found

    Transitional Millisecond Pulsars

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    Millisecond pulsars in tight binaries have recently challenged our understanding of physical processes governing the evolution of binaries and the interaction between astrophysical plasma and electromagnetic fields. Transitional systems that showed changes from rotation-powered to accretion-powered states and vice versa have bridged the populations of radio and accreting millisecond pulsars, eventually demonstrating the tight evolutionary link envisaged by the recycling scenario. A decade of discoveries and theoretical efforts have just grasped the complex phenomenology of transitional millisecond pulsars from the radio to the gamma-ray bands. This chapter summarizes the main properties of the three transitional millisecond pulsars discovered so far, as well as of candidates and related systems, discussing the various models proposed to cope with their multifaceted behaviour

    Analysis of the rotational behaviour and evolutionary scenarios of Accreting Millisecond Pulsars

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    In questo studio viene presentata un'analisi dell'evoluzione rotazionale ed orbitale delle Pulsar X al millisecondo (AMSP). Queste sorgenti sono delle stelle di neutroni (NS) che emettono energia in raggi X accrescendo la materia trasferita da una stella compagna, tramite un disco di accrescimento. Poichè le AMSP poseggono una magnetosfera che interrompe il flusso di materia nel disco prima della superficie, concentrando l'accrescimento nelle vicinanze dei poli magnetici, l'emissione X è pulsata al periodo di rotazione della stella, che è di qualche millisecondo per una AMSP. Il mio progetto di ricerca si basa sull'utilizzo di questa proprietà fondamentale per valutare la reazione della NS all'accrescimento di materia. Infatti le particelle di un disco di accrescimento posseggono un elevato momento angolare specifico, specialmente nelle vicinanze della NS; quando la materia viene accresciuta il suo momento angolare viene rilasciato alla stella, che tende quindi ad accellerare. E' proprio questo meccanismo che ha condotto le AMSP alla estrema velocità di rotazione attuale (un decimo della velocità della luce). Avendo a disposizione un tale orologio solidale alla stella, ho utilizzato le pulsazioni X provenienti dalla superficie per misurare le piccole variazioni della frequenza di rotazione della NS mentre accresce massa. Se ne trae quindi una misura delle coppie che agiscono su di essa e la stima delle grandezze che le regolano, principalmente il tasso di accrescimento di massa e l'intensità del campo magnetico della NS. Tali misure sono estremamente delicate, specialmente nel caso delle AMSP. Infatti queste sorgenti accrescono massa al più per qualche mese ed, a causa dell'elevata inerzia di una NS, la variazione di frequenza attesa è solamente di poche parti su dieci miliardi. Innanzi tutto le tecniche standard di timing sono state quindi adattate al caso particolare di questi oggetti, permettendo per la prima volta una misura affidabile del loro stato rotazionale. Sono state prese in considerazione sei delle dieci AMSP scoperte sin ora. In particolare, le due alle quali mi sono dedicato maggiormente mostrano adeguatamente come il semplice schema di accellerazione della NS delineato sopra non valga in ogni caso, e come una AMSP possa anche decelerare durante l'accrescimento. La causa di tale decelerazione è individuata dalla teoria dell'accrescimento nell'interazione tra il campo magnetico e il disco di accrescimento, interazione che può quindi rallentare la stella specialmente se questa ruota molto rapidamente. In questo lavoro mostro come questi rallentamenti vengono effettivamente osservati e come consentano di ottenere stime del campo magnetico della NS. Gli elementi basilari delle teorie dell'accrescimento su un rotatore veloce sono stati testati non solo sulla base dei risultati dell'analisi temporale. Si mostra infatti come le attese teoriche siano supportate anche alla luce dell'informazione spettrale. In particolare l'osservazione di una AMSP mostra la presenza di una riga del ferro molto larga nel suo spettro in raggi X. Essendo la regione interna del disco di accrescimento l'unica possibile regione di formazione di una riga così larga, è stato possibile misurare, per la prima volta nel caso di una pulsar, l'estensione del bordo interno del disco. Il valore misurato è perfettamente in accordo con il ristretto intervallo permesso dalla teoria, rappresentando così una verifica fondamentale della sua consistenza. L'analisi temporale consente inoltre di valutare l'evoluzione orbitale del sistema binario al quale appartiene la NS. Nell'unico caso di un sistema che abbia mostrato più di un episodio di attività, si è trovata evidenza di una evoluzione molto più rapida di quella attesa. Questo comportamento può essere spiegato solo in termini di rilevanti perdite di massa, massa che porta con sé la quantità di momento angolare necessaria per rendere conto dell'evoluzione misurata. Ciò supporta inoltre l'ipotesi che tali perdite di massa siano dovute all'accensione di una pulsar alimentata dalla rotazione durante le sue fasi di quiete del sistema. Questo può in definitiva essere considerato uno dei pochi casi astrofisici in cui viene osservata in tempo reale un'evoluzione altamente non conservativa. I risultati presentati in questa tesi coprono quindi molti aspetti della fisica di questi sistemi, mostrando come l'unione dell'analisi temporale e spettrale possa fornire una gran quantità di informazioni su questi sistemi estremi e per certi versi sconcertanti. In definitiva sono state confermate le attese teoriche di base sull'accrescimento su NS veloci, ma si aprono anche diverse questioni che promettono di gettare maggiore luce sulla fisica dell'ambiente immediatamente circostante la stella e sull'effettiva linea evolutiva delle AMSP.I present in this study an analysis of the spin and orbital evolution of Accreting Millisecond Pulsars (AMSP). These sources are neutron stars (NS) emitting X-rays because of the accretion of mass transferred by a nearby companion star through an accretion disc. As AMSP owns a magnetosphere that truncates the disc before the NS, thus channelling accreted matter in the vicinity of the magnetic poles, their X-ray emission is pulsed at the NS spin period, which is of few milliseconds in an AMSP. My scientific project relies on the use this invaluable property to evaluate the rotational reaction of the NS to the accretion of mass. As a matter of fact, mass orbiting in an accretion disc has a large specific angular momentum especially close to the NS; when this matter is accreted, it releases its angular momentum to the NS that is therefore expected to accelerate. It is indeed through this mechanism that AMSP have been spun up to their extreme rotational velocities (up to 0.1 times the speed of light in vacuum). I therefore used the X-ray pulsations coming from the NS surface as a clock to precisely measure the tiny variations of the accretor spin frequency as it accretes. This is ultimately a measure of the accretion torques acting on the NS and allows a model dependent estimate of the physical quantities regulating these torques, mainly the rate at which mass is accreted on the NS and the magnetic field straight. Such measurements can be very tricky especially for AMSP. They accrete mass for at most few months, and because of to the large inertia of a NS, the expected frequency variations are of only few parts on ten billions. Standard timing techniques were therefore first tailored to the particular case of these sources, allowing for the first time reliable estimates of their spin state. Six among the ten AMSP discovered so far are considered in this work. In particular, the two sources I focused on the most show how the simple picture of the NS spin-up outlined above does not hold in every case, as the outcome of the accretion can also be the deceleration of the NS. The reason for this behaviour is interpreted by the accretion theory in terms of the interaction between the magnetic field and the accretion disc. This interaction may then brake of the compact object especially if it is very fast. I show in this work how these spin-down are effectively observed and how this allows an estimate of the NS magnetic field. The basics of the accretion picture onto a fast object are tested not only on the basis of a temporal analysis. I show in fact how the spectral information also supports the theoretical expectations. In particular a high spectral resolution observation of a AMSP shows the presence of a broadened iron line in its X-ray spectrum. The only viable location for the formation of a line so broadened is the inner part of the accretion disc, thus allowing for the first time the measure of the size of the inner disc rim of a pulsar. This measure is perfectly consistent with the small range allowed by theory, thus representing a fundamental test of their consistency. Temporal analysis also allows to enlighten the evolution of the binary system the NS belongs to. In the only case of a system which recurred more than once, we could find evidence of a faster than expected evolution. We interpret such behaviour as an indication of relevant mass lost which carries away the angular momentum needed to match the observations. This supports the hypothesis that a rotation powered pulsar switches on during the quiescent phases of the binary. Moreover, this observation can be considered as one of the few astrophysical cases in which a highly non conservative evolution was directly observed. The results presented in this thesis cover many aspects of the physics of these fast accretors, and show how X-ray temporal and spectral analysis can jointly supply a wealth of information on the physical state of these extreme and puzzling systems. These results confirm the basic theoretical expectations but open also several issues which are very promising to shed some light in particular on the environment surrounding these fast rotating NS and on their actual evolutionary progeny

    A imagem de Alessandro Baricco no Brasil

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    Dissertação (mestrado) - Universidade Federal de Santa Catarina, Centro de Comunicação e Expressão, Programa de Pós-Graduação em Estudos da Tradução, Florianópolis, 2013.Com a intenção de delinear o modo pelo qual o escritor italiano Alessandro Baricco se inseriu no sistema literário brasileiro e os caminhos percorridos pelos seus livros traduzidos, esta dissertação dá voz às experiências tradutórias de seus tradutores. A inserção de Bariccono Brasil tem seu início em 1997, através de uma proposição da Profa. Dra. Roberta Barni à editora Iluminuras da tradução de Oceano Mare. A partir daí, outras sete obras foram publicadas no Brasil, sendo três delas traduzidas por Roberta Barni e as outras quatro por quatro tradutores diferentes. De um lado, considera-se o tradutor como figura principal namediação entre culturas, e, de outro, se analisa a realidade desta figuradentro do sistema literário, sua invisibilidade, seus limites e o exercíciode sua profissão. A pesquisa conta, ainda, com críticas e resenhas referentes ao autor italiano publicadas em jornais consagrados no Brasil, considerando estas como parte constituinte da imagem de Baricco refletida em território nacional. Abstract : Intending to delineate the way the Italian writer Alessandro Baricco has been inserted in the Brazilian literary system and the paths his translated books have followed, this thesis gives voice to the translating experiences of his translators. Baricco's insertion in Brazil began in 1997, through a personal project of Dr. Roberta Barni, with her translation of Oceano Mare. Since then, seven other of his works have been published in Brazil, three of which were translated by Roberta Barni and the other four by four different translators. On the one hand,the translator is considered as the main figure in mediation betweencultures and, on the other, this figure's reality is analyzed within theliterary system: its invisibility, its limits and its professional practice. Criticisms and reviews of this Italian author published in well established Brazilian newspapers are also considered, with the understanding that they are part of Baricco's image reflected here

    Discovery of polarized X-ray emission from the accreting millisecond pulsar SRGA J144459.2–604207

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    Alessandro Papitto et al.We report the discovery of polarized X-ray emission from an accreting millisecond pulsar. During a 10-day-long coverage of the February 2024 outburst of SRGA J144459.2−604207, the Imaging X-ray Polarimetry Explorer (IXPE) detected an average polarization degree of the 2–8 keV emission of 2.3%±0.4% at an angle of 59° ±6° (east of north; the uncertainties quoted are at the 1σ confidence level). The polarized signal shows a significant energy dependence with a degree of 4.0%±0.5% between 3 and 6 keV and < 1.5% (90% c.l.) in the 2–3 keV range. We used NICER, XMM–Newton, and NuSTAR observations to obtain an accurate pulse-timing solution and to perform a phase-resolved polarimetric analysis of IXPE data. We did not detect any significant variability in the Stokes parameters Q and U with the spin and orbital phases. We used the relativistic rotating-vector model to show that a moderately fan-beam emission from two point-like spots at low magnetic obliquity (≃10°) is compatible with the observed pulse profile and polarization properties. IXPE also detected 52 type I X-ray bursts whose recurrence time Δtrec increased from 2 to 8 h as a function of the observed count rate C as Δtrec ∝ C−0.8. We stacked the emission observed during all the bursts and obtained an upper limit on the polarization degree of 8.5% (90% c.l.).We warmly thank the Directors and the Science Operations Team of IXPE, NICER, NuSTAR, and XMM for promptly scheduling the observations reported here and Bas Dorsman, Matteo Bachetti and Anna Watts for useful discussions. The Imaging X-ray Polarimetry Explorer (IXPE) is a joint US and Italian mission. The US contribution is supported by the National Aeronautics and Space Administration (NASA) and led and managed by its Marshall Space Flight Center (MSFC), with industry partner Ball Aerospace (contract NNM15AA18C). The Italian contribution is supported by the Italian Space Agency (Agenzia Spaziale Italiana, ASI) through contract ASI-OHBI-2022-13-I.0, agreements ASI-INAF-2022-19-HH.0 and ASI-INFN-2017.13-H0, and its Space Science Data Center (SSDC) with agreements ASI-INAF-2022-14-HH.0 and ASI-INFN 2021-43-HH.0, and by the Istituto Nazionale di Astrofisica (INAF) and the Istituto Nazionale di Fisica Nucleare (INFN) in Italy. This research used data products provided by the IXPE Team (MSFC, SSDC, INAF, and INFN) and distributed with additional software tools by the High-Energy Astrophysics Science Archive Research Center (HEASARC), at NASA Goddard Space Flight Center (GSFC). NICER is a 0.2–12 keV X-ray telescope operating on the International Space Station, funded by NASA. The NuSTAR mission is a project led by the California Institute of Technology, managed by the Jet Propulsion Laboratory, and funded by the National Aeronautics and Space Administration. Data analysis was performed using the NuSTAR Data Analysis Software (NuSTARDAS), jointly developed by the ASI Science Data Center (SSDC, Italy) and the California Institute of Technology (USA). XMM-Newton is an ESA science mission with instruments and contributions directly funded by ESA Member States and NASA. MN and this work were supported by NASA under grant 80NSSC24K1175. AP, GI, FA, RLP, CM and LS are supported by INAF Research Grant FANS and the Italian Ministry of University and Research PRIN 2020 Grant 2020BRP57Z (GEMS). AP acknowledges support from the Fondazione Cariplo/CDP, grant no. 2023-2560. JP thanks the Ministry of Science and Higher Education grant 075-15-2024-647 for support. AB acknowledges support from the Finnish Cultural Foundation grant 00240328. MCB acknowledges support from the INAF-Astrofit fellowship. FCZ is supported by a Ramón y Cajal fellowship (grant agreement RYC2021-030888-I). TS acknowledges support from ERC Consolidator Grant No. 865768 AEONS (PI: Watts).Peer reviewe

    A model to interpret pulse phase shifts in AMXPs: SAX J1808.4-3658 as a proof of concept

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    Observational evidences of erratic 1st harmonic pulse phase shifts in accreting millisecond X-ray pulsars pulse phase evolution was reported by several authors. This effect always go together with much more stable 2nd harmonics pulse phase delays. Different possible explanations of these phase shifts have been given in literature. But all these interpretations do not explain why the 2nd harmonic are more stable than the 1st harmonic. The explanation of such a behaviour is of fundamental importance in order to gain an insight on the NS rotational behaviour and to remove the still present interpretative ambiguity on the results of timing analysis. We propose a simple toy-model to interpret these phenomena as effect of small variations of the ratio between the fluxes from the two hot-spots. We show how it affects the phase of the overall pulse profile, when the two amplitudes are similar and the two hot-spots are not perfectly antipodal. Using this model, we give a detailed explanation of the phase jump observed in the 2002 outburst of SAX J1808.4-3658

    La maturità di Alessandro Fei del Barbiere, in bilico tra Maniera e Riforma

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    This article studies the mature career of the Florentine painter Alessandro Fei del Barbiere (1537-1592), beginning with the rediscovery of the 'Ascension' altarpiece formerly in the Albizi Chapel in the destroyed church of San Pier Maggiore, Florence. Studying this painting and others recorded in 1584 by the biographer Raffaello Borghini, such as the two altarpieces for Santa Maria delle Grazie and the Madonna dell'Umiltà in Pistoia, the author reconstructs a body of works showing how in the 1580s Fei gradually went beyond the archaic style of his apprenticeship - he had been trained by Ridolfo del Ghirlandaio and Pierfrancesco Foschi, but was also marked by the Maniera of Vasari - evolving towards naturalism in both mimesis and pictorial handling. In Florence, his development partly parallels that of Santi di Tito and his circle, but Fei was also influenced by a probable sojourn during the early part of that decade in Rome, where he could have been inspired by Girolamo Muziano and the painters working for Pope Gregory XIII. Among other proposals, the author suggests that the artist was responsible for decorating the chancel of Fiesole Cathedral (c. 1584-1589), which consisted of an altarpiece, only rarely discussed by scholars, and a cycle of frescoes hitherto attributed to Nicodemo Ferrucci

    The Equation of State of Neutron Star Matter

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    Neutron stars are remarkable natural laboratories that allow us to investigate the fundamental constituents of matter and their interactions under extreme conditions that cannot be reproduced in terrestrial laboratories. This chapter gives a brief pedagogical introduction to the physics of matter at very high densities (i.e. up to several times the density of atomic nuclei) that hopefully could be useful to researchers in pulsars’ astrophysics and related areas

    Tra socialdemocrazie e Perestrojka. Le relazioni internazionali del Pci attraverso le carte di Alessandro Natta

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    This essay reconstructs the foreign policy of the Italian Communist Party during the four years of Alessandro Natta’s secretariat (1984-1988) through largely original archival documentation, from the Alessandro Natta Fonds of the Historical Archive of the Chamber of Deputies. Natta’s papers are also cross-referenced with those kept in the PCI Archive at the Gramsci Foundation. The author analyses the relationship that the PCI establishes with Gorbachev’s Perestroika, Deng’s China, and European social democracies during the last years of the Cold War

    Volta Alessandro

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    The New Dictionary of Scientific Biography (extension and updating of the Dictionary of Scientific Biography) is one of the most substantial reference works in the field of the history of science. An up-to-date overview on Alessandro Volta's science with new perspectives offered by the author. Information and critical analysis is also provided on the main secondary literature produced on this main protagonist of enlightenment science after the 1976 entry "Volta Alessandro" in the Dictionary of Scientific Biography

    "Muy señor nuestro Alessandro Varaldo". La ricognizione del mondo spagnolo e portoghese per riscoprire un autore italiano di successo ma dimenticato

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    Who is Alessandro Varaldo (1876-1953)? This first analysis about what was said, adapted and translated of Varaldo’s work in the Iberian Peninsula and South America, maybe the only areas outside Italy where some traces of Italian author can be found, is a chance to go along his literary paths that overtook two temporal barriers (1900 and 1950), although it has not overtaken the oblivion’s threshold.Questa è una prima ricognizione di ciò che è stato detto, adattato e tradotto di Alessandro Varaldo (1876-1953) nella Penisola iberica e in Sud America, che si sospetta siano gli unici territori stranieri dove si riesca a ritracciare qualcosa dell’autore italiano, ed è un’occasione per ripercorrerne la traiettoria letteraria che ha superato due transenne temporali come il 1900 e il 1950 ma non quella della dimenticanza
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