Your search keyword '"Morán-Fraile, Javier"' showing total 10 results

1. Expected insights on type Ia supernovae from LISA's gravitational wave observations

Author

Korol, Valeriya, Buscicchio, Riccardo, Pakmor, Ruediger, Morán-Fraile, Javier, Moore, Christopher J., and de Mink, Selma E.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology

Abstract

The nature of progenitors of Type Ia supernovae has long been debated, primarily due to the elusiveness of the progenitor systems to traditional electromagnetic observation methods. We argue that gravitational wave observations with the upcoming Laser Interferometer Space Antenna (LISA) offer the most promising way to test one of the leading progenitor scenarios - the double-degenerate scenario, which involves a binary system of two white dwarf stars. In this study we review published results, supplementing them with additional calculations for the context of Type Ia supernovae. We discuss the fact that LISA will be able to provide a complete sample of double white dwarf Type Ia supernova progenitors with orbital periods shorter than 16-11 minutes (gravitational wave frequencies above 2-3 millihertz). Such a sample will enable a statistical validation of the double-degenerate scenario by simply counting whether LISA detects enough double white dwarf binaries to account for the measured Type Ia merger rate in Milky Way-like galaxies. Additionally, we illustrate how LISA's capability to measure the chirp mass will set lower bounds on the primary mass, revealing whether detected double white dwarf binaries will eventually end up as a Type Ia supernova. We estimate that the expected LISA constraints on the Type Ia merger rate for the Milky Way will be 4-9%. We also discuss the potential gravitational wave signal from a Type Ia supernova assuming a double-detonation mechanism and explore how multi-messenger observations could significantly advance our understanding of these transient phenomena., Comment: accepted version

Published

2024

2. The Lunar Gravitational-wave Antenna: Mission Studies and Science Case

Author

Ajith, Parameswaran, Seoane, Pau Amaro, Sedda, Manuel Arca, Arcodia, Riccardo, Badaracco, Francesca, Banerjee, Biswajit, Belgacem, Enis, Benetti, Giovanni, Benetti, Stefano, Bobrick, Alexey, Bonforte, Alessandro, Bortolas, Elisa, Braito, Valentina, Branchesi, Marica, Burrows, Adam, Cappellaro, Enrico, Della Ceca, Roberto, Chakraborty, Chandrachur, Subrahmanya, Shreevathsa Chalathadka, Coughlin, Michael W., Covino, Stefano, Derdzinski, Andrea, Doshi, Aayushi, Falanga, Maurizio, Foffa, Stefano, Franchini, Alessia, Frigeri, Alessandro, Futaana, Yoshifumi, Gerberding, Oliver, Gill, Kiranjyot, Di Giovanni, Matteo, Giudice, Ines Francesca, Giustini, Margherita, Gläser, Philipp, Harms, Jan, van Heijningen, Joris, Iacovelli, Francesco, Kavanagh, Bradley J., Kawamura, Taichi, Kenath, Arun, Keppler, Elisabeth-Adelheid, Kobayashi, Chiaki, Komatsu, Goro, Korol, Valeriya, Krishnendu, N. V., Kumar, Prayush, Longo, Francesco, Maggiore, Michele, Mancarella, Michele, Maselli, Andrea, Mastrobuono-Battisti, Alessandra, Mazzarini, Francesco, Melandri, Andrea, Melini, Daniele, Menina, Sabrina, Miniutti, Giovanni, Mitra, Deeshani, Morán-Fraile, Javier, Mukherjee, Suvodip, Muttoni, Niccolò, Olivieri, Marco, Onori, Francesca, Papa, Maria Alessandra, Patat, Ferdinando, Perali, Andrea, Piran, Tsvi, Piranomonte, Silvia, Pol, Alberto Roper, Pookkillath, Masroor C., Prasad, R., Prasad, Vaishak, De Rosa, Alessandra, Chowdhury, Sourav Roy, Serafinelli, Roberto, Sesana, Alberto, Severgnini, Paola, Stallone, Angela, Tissino, Jacopo, Tkalčić, Hrvoje, Tomasella, Lina, Toscani, Martina, Vartanyan, David, Vignali, Cristian, Zaccarelli, Lucia, Zeoli, Morgane, and Zuccarello, Luciano

Subjects

General Relativity and Quantum Cosmology, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The Lunar Gravitational-wave Antenna (LGWA) is a proposed array of next-generation inertial sensors to monitor the response of the Moon to gravitational waves (GWs). Given the size of the Moon and the expected noise produced by the lunar seismic background, the LGWA would be able to observe GWs from about 1 mHz to 1 Hz. This would make the LGWA the missing link between space-borne detectors like LISA with peak sensitivities around a few millihertz and proposed future terrestrial detectors like Einstein Telescope or Cosmic Explorer. In this article, we provide a first comprehensive analysis of the LGWA science case including its multi-messenger aspects and lunar science with LGWA data. We also describe the scientific analyses of the Moon required to plan the LGWA mission.

Published

2024

3. Thermonuclear explosions as Type II supernovae

Author

Kozyreva, Alexandra, Moran-Fraile, Javier, Holas, Alexander, Bronner, Vincent A., Roepke, Friedrich K., Pavlyuk, Nikolay, Mironov, Alexey, and Tsvetkov, Dmitriy

Subjects

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

Abstract

We consider a binary stellar system, in which a low-mass, of 0.6 Msun, carbon-oxygen white dwarf (WD) mergers with a degenerate helium core of 0.4 Msun of a red giant. We analyse the outcome of a merger within a common envelope (CE). We predict the observational properties of the resulting transient. We find that the double detonation of the WD, being a pure thermonuclear explosion and embedded into the hydrogen-rich CE, has a light curve with the distinct plateau shape, i.e. looks like a supernova (SN) Type IIP, with a duration of about 40 days. We find five observed SNe IIP: SN 2004dy, SN 2005af, SN 2005hd, SN 2007aa, and SN 2008bu, that match the V-band light curve of our models. Hence, we show that a thermonuclear explosion within a CE might be mistakenly identified as a SN IIP, which are believed to be an outcome of a core-collapse neutrino-driven explosion of a massive star. We discuss a number of diagnostics, that may help to distinguish this kind of a thermonuclear explosion from a core-collapse SN., Comment: 12 pp., accepted for publication in A & A

Published

2024

4. Gravitational wave emission from dynamical stellar interactions

Author

Moran-Fraile, Javier, Schneider, Fabian R. N., Roepke, Friedrich K., Ohlmann, Sebastian T., Pakmor, Ruediger, Soultanis, Theodoros, and Bauswein, Andreas

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics, General Relativity and Quantum Cosmology

Abstract

We are witnessing the dawn of gravitational wave (GW) astronomy. With currently available detectors, observations are restricted to GW frequencies in the range between ${\sim} 10\,\mathrm{Hz}$ and $10\,\mathrm{kHz}$, which covers the signals from mergers of compact objects. The launch of the space observatory LISA will open up a new frequency band for the detection of stellar interactions at lower frequencies. In this work, we predict the shape and strength of the GW signals associated with common-envelope interaction and merger events in binary stars, and we discuss their detectability. Previous studies estimated these characteristics based on semi-analytical models. In contrast, we used detailed three-dimensional magnetohydrodynamic simulations to compute the GW signals. We show that for the studied models, the dynamical phase of common-envelope events and mergers between main-sequence stars lies outside of the detectability band of the LISA mission. We find, however, that the final stages of common-envelope interactions leading to mergers of the stellar cores fall into the frequency band in which the sensitivity of LISA peaks, making them promising candidates for detection. These detections can constrain the enigmatic common-envelope dynamics. Furthermore, future decihertz observatories such as DECIGO or BBO would also be able to observe this final stage and the post-merger signal, through which we might be able to detect the formation of Thorne-\.Zytkow objects., Comment: Accepted for publication in A&A, 12 pages, 8 figures

Published

2023

5. Expected insights into Type Ia supernovae from LISA's gravitational wave observations.

Author

Korol, Valeriya, Buscicchio, Riccardo, Pakmor, Ruediger, Morán-Fraile, Javier, Moore, Christopher J., and de Mink, Selma E.

Subjects

TYPE I supernovae, GRAVITATIONAL waves, TRANSIENTS (Dynamics), LASER interferometers, GRAVITATIONAL potential

Abstract

The nature of progenitors of Type Ia supernovae has long been debated, primarily due to the elusiveness of the progenitor systems to traditional electromagnetic observation methods. We argue that gravitational wave observations with the upcoming Laser Interferometer Space Antenna (LISA) offer the most promising way to test one of the leading progenitor scenarios – the double-degenerate scenario, which involves a binary system of two white dwarf stars. In this study we review published results, supplementing them with additional calculations for the context of Type Ia supernovae. We discuss the fact that LISA will be able to provide a complete sample of double white dwarf Type Ia supernova progenitors with orbital periods shorter than 16–11 minutes (gravitational wave frequencies above 2–3 millihertz). Such a sample will enable a statistical validation of the double-degenerate scenario by simply counting whether LISA detects enough double white dwarf binaries to account for the measured Type Ia merger rate in Milky Way-like galaxies. Additionally, we illustrate how LISA's capability to measure the chirp mass will set lower bounds on the primary mass, revealing whether detected double white dwarf binaries will eventually end up as a Type Ia supernova. We estimate that the expected LISA constraints on the Type Ia merger rate for the Milky Way will be 4–9%. We also discuss the potential gravitational wave signal from a Type Ia supernova assuming a double-detonation mechanism and explore how multi-messenger observations could significantly advance our understanding of these transient phenomena. [ABSTRACT FROM AUTHOR]

Published

2024

6. Large-scale ordered magnetic fields generated in mergers of helium white dwarfs.

Author

Pakmor, Rüdiger, Pelisoli, Ingrid, Justham, Stephen, Rajamuthukumar, Abinaya S., Röpke, Friedrich K., Schneider, Fabian R. N., de Mink, Selma E., Ohlmann, Sebastian T., Podsiadlowski, Philipp, Morán-Fraile, Javier, Vetter, Marco, and Andrassy, Robert

Subjects

STELLAR magnetic fields, STELLAR mergers, MERGERS & acquisitions, MAGNETIC fields, MAGNETOHYDRODYNAMICS

Abstract

Stellar mergers are one important path to highly magnetised stars. Mergers of two low-mass white dwarfs may create up to every third hot subdwarf star. The merging process is usually assumed to dramatically amplify magnetic fields. However, so far only four highly magnetised hot subdwarf stars have been found, suggesting a fraction of less than 1%. We present two high-resolution magnetohydrodynamical (MHD) simulations of the merger of two helium white dwarfs in a binary system with the same total mass of 0.6 M⊙. We analysed an equal-mass merger with two 0.3 M⊙ white dwarfs, and an unequal-mass merger with white dwarfs of 0.25 M⊙ and 0.35 M⊙. We simulated the inspiral, merger, and further evolution of the merger remnant for about 50 rotations. We found efficient magnetic field amplification in both mergers via a small-scale dynamo, reproducing previous results of stellar merger simulations. The magnetic field saturates at a similar strength for both simulations. We then identified a second phase of magnetic field amplification in both merger remnants that happens on a timescale of several tens of rotational periods of the merger remnant. This phase generates a large-scale ordered azimuthal field via a large-scale dynamo driven by the magneto-rotational instability. Finally, we speculate that in the unequal-mass merger remnant, helium burning will initially start in a shell around a cold core, rather than in the centre. This forms a convection zone that coincides with the region that contains most of the magnetic energy, and likely destroys the strong, ordered field. Ohmic resistivity might then quickly erase the remaining small-scale field. Therefore, the mass ratio of the initial merger could be the selecting factor that decides if a merger remnant will stay highly magnetised long after the merger. [ABSTRACT FROM AUTHOR]

Published

2024

7. Thermonuclear explosions as Type II supernovae

Author

Kozyreva, Alexandra, primary, Morán-Fraile, Javier, additional, Holas, Alexander, additional, Bronner, Vincent A., additional, Röpke, Friedrich K., additional, Pavlyuk, Nikolay, additional, Mironov, Alexey, additional, and Tsvetkov, Dmitry, additional

Published

2024

8. Faint calcium-rich transient from a double detonation of a 0.6 M⊙ carbon-oxygen white dwarf star

Author

Morán-Fraile, Javier, primary, Holas, Alexander, additional, Röpke, Friedrich K., additional, Pakmor, Rüdiger, additional, and Schneider, Fabian R. N., additional

Published

2024

9. Gravitational wave emission from dynamical stellar interactions

Author

Morán-Fraile, Javier, primary, Schneider, Fabian R. N., additional, Röpke, Friedrich K., additional, Ohlmann, Sebastian T., additional, Pakmor, Rüdiger, additional, Soultanis, Theodoros, additional, and Bauswein, Andreas, additional

Published

2023

10. Difusión de carga en materiales de muy baja conductividad

Author

Morán Fraile, Javier, Alejos Ducal, Óscar, Muñoz Muñoz, José María, and Universidad de Valladolid. Facultad de Ciencias

Subjects

Resistencia, Conductividad, Medida

Abstract

Este trabajo trata del desarrollo de un nuevo método para la determinación de la resistencia en materiales de muy baja conductividad. Este método está basado en el estudio de la difusión de la carga en el interior del material al ser sometido a una diferencia de potencial. Para ello se ha diseñado un sistema constituido por dos placas metálicas paralelas conectadas a tierra, en medio de las cuales se ha introducido una lámina del material a medir. Se aplica un potencial elevado en un extremo de la lámina y se analiza la evolución temporal del potencial en el otro extremo. La rapidez de la variación del potencial estará directamente relacionada con la conductividad del material. En primer lugar se realizará un estudio teórico tratando de aproximar el sistema a una línea de transmisión y hallando una solución analítica a este sistema aproximado. En segundo lugar se desarrollará un software de simulación escrito en lenguaje C que resolverá el problema de la difusión de la carga en el material mediante un método basado en las diferencias finitas, hallando una solución al problema unidimensional del potencial a lo largo del material. En tercer lugar se desarrollará otro software de simulación escrito en MATLAB® para resolver el problema en dos dimensiones, hallando la difusión de carga a través del material resolviendo la ecuación de Poisson y la ecuación de continuidad de la corriente eléctrica para cada paso temporal. Finalmente montaremos el sistema y realizaremos medidas experimentales de la evolución del potencial en un material a fin de medir su conductividad y comprobar que dicha evolución es la predicha por los modelos calculados., Grado en Física

Published

2017