Quiescent massive black holes live at the centre of most galaxies. Sometimes they can accrete matter from the surroundings and become active. A contribution to the black hole turning on is given by the tidal disruption of stars orbiting around them. Indeed, stars in a galactic nuclear cluster stochastically interact with each other, increasing the probability for one of them to be scattered close enough to the central black hole to significantly feel its tidal influence. Basically, if the pericentre of the star around the black hole is less than about the so-called tidal radius, the star is completely disrupted. A fraction of the produced stellar debris circularises and accretes onto the black hole powering a characteristic flare. Despite their scarcity and general sparseness in observations, about 70 candidates have been observed, mainly in the optical, UV and soft X-ray energy bands, thus allowing the detection of otherwise quiescent black holes. The discovery of new candidates is also important to check the theories about tidal disruption events through observations. About two years ago I classified XMMSL1J063045.9-603110 as a new candidate. Its peculiarity is to be likely associated with a very dim dwarf galaxy or even a very bright globular cluster hosting an intermediate-mass black hole. Intermediate-mass black holes are currently under study as the connecting bridge between stellar-mass and massive black holes and the raw material for massive black holes, thus their detection would be extremely important. Mostly, the literature of tidal disruption events deals with total tidal disruptions, but the appearance of tidal disruption flares is expected to depend on whether the star is fully or partially disrupted. Given the tidal radius definition, it first followed the need to define the effective demarcation line between total and partial disruptions. Guillochon & Ramirez-Ruiz (2013; 2015) evaluated it through grid-based hydrodynamical simulations of tidal encounters between polytropic stars and black holes. Following their work, I investigated the same problem by comparing different simulation codes, which have different advantages and limits. The demarcation distance depended significantly on the chosen polytropic index (i.e. on the stellar internal structure), but only weakly on the adopted simulation method, provided a minimum resolution threshold. As opposed to single stars, a great number of field stars are in binaries. Mandel & Levin (2015) demonstrated that under certain conditions both stars in a binary might be tidally disrupted in sequence immediately after the tidal binary break-up, thus powering a peculiar total accretion flare. Double-peaked light curves are expected to rise from double tidal disruptions. Via hydrodynamical simulations of double tidal disruptions, I demonstrated that kneed light curves, rather than double-peaked ones, can be more easily observed when decreasing the strength of the disruption and when elevating the mass difference between the binary components. I identified the first observational evidence of such events in PS16dtm. The detection of a knee can anticipate the onset of periodic flares if one of the binary components, only partially disrupted, remains bound to the black hole after binary separation.
Al centro della maggior parte delle galassie risiedono buchi neri massicci quiescenti. Talvolta questi oggetti possono accrescere materiale dall’ambiente circostante e diventare attivi. Un contributo alla loro accensione è dato dalla distruzione mareale di stelle che gli orbitano intorno. Infatti, le stelle di un cluster nucleare galattico interagiscono stocasticamente una con l’altra, aumentando la probabilità per una di queste di essere scatterata abbastanza vicino al buco nero centrale da risentire in modo significativo della sua influenza mareale. Essenzialmente, se il pericentro della stella attorno al buco nero è minore del cosiddetto raggio mareale, la stella viene completamente distrutta. Una frazione dei detriti stellari prodotti circolarizza e accresce sul buco nero alimentando un’emissione caratteristica. Nonostante la loro rarità e la generale sparsità delle loro osservazioni, sono stati osservati circa 70 candidati, principalmente nelle bande ottica, ultravioletta e X soffice, permettendo così di rivelare buchi neri altrimenti quiescenti. La scoperta di nuovi candidati risulta importante anche per verificare le teorie relative agli eventi di distruzione mareale attraverso le osservazioni. Circa due anni fa ho identificato XMMSL1J063045.9-603110 come nuovo candidato. La sua peculiarità consiste nell’essere associato probabilmente ad una galassia nana molto debole o addirittura ad un globular cluster molto luminoso che ospita un buco nero di massa intermedia. I buchi neri di massa intermedia sono attualmente oggetto di studio come collegamento tra i buchi neri di massa stellare e i buchi neri massicci e come materia prima per la formazione dei buchi neri massicci, pertanto poterli rivelare sarebbe estremamente importante. Principalmente, la letteratura riguardante gli eventi di distruzione mareale tratta le distruzioni mareali totali, ma il profilo dei tidal disruption flares ci si aspetta che dipenda da se la stella viene distrutta totalmente o parzialmente. Per come è definito il raggio mareale, è stato necessario innanzitutto determinare l’effettiva linea di demarcazione tra le distruzioni totali e quelle parziali. Guillochon e Ramirez-Ruiz (2013; 2015) l’hanno valutata attraverso simulazioni idrodinamiche di incontri mareali tra stelle modellate come politropi e buchi neri, basate su un codice a griglia. Seguendo il loro lavoro, ho indagato la stessa questione confrontando codici di simulazione diversi, dotati di differenti vantaggi e limiti. La demarcazione dipendeva in maniera significativa dall’indice politropico scelto (ovvero, dalla struttura interna della stella), ma solo lievemente dal metodo di simulazione utilizzato, al di sopra però di una risoluzione minima. Contrariamente a stelle singole, un gran numero di stelle si trova in sistemi binari. Mandel e Levin (2015) hanno dimostrato che in determinate condizioni entrambe le componenti di una binaria potrebbero essere distrutte marealmente in sequenza subito dopo la rottura mareale della binaria, alimentando così un’emissione totale caratteristica. Da distruzioni mareali doppie ci si aspettano curve di luce a doppio picco. Attraverso simulazioni idrodinamiche di distruzioni mareali doppie, ho dimostrato che possono essere più facilmente osservate curve di luce con una doppia pendenza, piuttosto che a doppio picco, diminuendo l’intensità della distruzione e aumentando la differenza di massa tra le componenti della binaria. Ho identificato la prima evidenza osservativa di questi eventi in PS16dtm. La rivelazione di un flare con doppia pendenza può anticipare l’insorgere di flares periodici se una delle componenti della binaria, solo parzialmente distrutta, rimane legata al buco nero dopo la separazione della binaria.
(2018). Whisper in the dark, scream in the light: stellar twists and shouts when facing black holes. (Tesi di dottorato, Università degli Studi di Milano-Bicocca, 2018).
Whisper in the dark, scream in the light: stellar twists and shouts when facing black holes
MAINETTI, DEBORAH
2018
Abstract
Quiescent massive black holes live at the centre of most galaxies. Sometimes they can accrete matter from the surroundings and become active. A contribution to the black hole turning on is given by the tidal disruption of stars orbiting around them. Indeed, stars in a galactic nuclear cluster stochastically interact with each other, increasing the probability for one of them to be scattered close enough to the central black hole to significantly feel its tidal influence. Basically, if the pericentre of the star around the black hole is less than about the so-called tidal radius, the star is completely disrupted. A fraction of the produced stellar debris circularises and accretes onto the black hole powering a characteristic flare. Despite their scarcity and general sparseness in observations, about 70 candidates have been observed, mainly in the optical, UV and soft X-ray energy bands, thus allowing the detection of otherwise quiescent black holes. The discovery of new candidates is also important to check the theories about tidal disruption events through observations. About two years ago I classified XMMSL1J063045.9-603110 as a new candidate. Its peculiarity is to be likely associated with a very dim dwarf galaxy or even a very bright globular cluster hosting an intermediate-mass black hole. Intermediate-mass black holes are currently under study as the connecting bridge between stellar-mass and massive black holes and the raw material for massive black holes, thus their detection would be extremely important. Mostly, the literature of tidal disruption events deals with total tidal disruptions, but the appearance of tidal disruption flares is expected to depend on whether the star is fully or partially disrupted. Given the tidal radius definition, it first followed the need to define the effective demarcation line between total and partial disruptions. Guillochon & Ramirez-Ruiz (2013; 2015) evaluated it through grid-based hydrodynamical simulations of tidal encounters between polytropic stars and black holes. Following their work, I investigated the same problem by comparing different simulation codes, which have different advantages and limits. The demarcation distance depended significantly on the chosen polytropic index (i.e. on the stellar internal structure), but only weakly on the adopted simulation method, provided a minimum resolution threshold. As opposed to single stars, a great number of field stars are in binaries. Mandel & Levin (2015) demonstrated that under certain conditions both stars in a binary might be tidally disrupted in sequence immediately after the tidal binary break-up, thus powering a peculiar total accretion flare. Double-peaked light curves are expected to rise from double tidal disruptions. Via hydrodynamical simulations of double tidal disruptions, I demonstrated that kneed light curves, rather than double-peaked ones, can be more easily observed when decreasing the strength of the disruption and when elevating the mass difference between the binary components. I identified the first observational evidence of such events in PS16dtm. The detection of a knee can anticipate the onset of periodic flares if one of the binary components, only partially disrupted, remains bound to the black hole after binary separation.
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phd_unimib_727078.pdf
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Descrizione: tesi di dottorato
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Doctoral thesis
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