Your search keyword '"A. Suárez Mascareño"' showing total 5 results

1. Rapid contraction of giant planets orbiting the 20-million-year-old star V1298 Tau

Author

Ministerio de Ciencia e Innovación (España), European Commission, Suárez Mascareño, A., Damasso, M., Lodieu, N., Sozzetti, Alessandro, Béjar, Victor J. S., Benatti, S., Zapatero Osorio, María Rosa, Micela, Giusi, Rebolo López, Rafael, Desidera, S., Murgas, F., Claudi, Riccardo, González Hernández, Jonay I., Malavolta, L., Del Burgo, C., D'Orazi, V., Amado, Pedro J., Locci, D., Tabernero, H. M., Marzari, F., Aguado, D. S., Turrini, D., Cardona Guillén, C., Toledo-Padrón, B., Maggio, Antonio, Aceituno, Jesús, Bauer, Florian Franz, Caballero, J. A., Chinchilla, P., Esparza-Borges, E., González-Álvarez, E., Granzer, Thomas, Luque, R., Martín, Eduardo Lorenzo, Nowak, G., Oshagh, M., Pallé, Enric, Parviainen, H., Quirrenbach, Andreas, Reiners, Ansgar, Ribas, Ignasi, Strassmeier, K. G., Weber, M., Mallonn, Matthias, Ministerio de Ciencia e Innovación (España), European Commission, Suárez Mascareño, A., Damasso, M., Lodieu, N., Sozzetti, Alessandro, Béjar, Victor J. S., Benatti, S., Zapatero Osorio, María Rosa, Micela, Giusi, Rebolo López, Rafael, Desidera, S., Murgas, F., Claudi, Riccardo, González Hernández, Jonay I., Malavolta, L., Del Burgo, C., D'Orazi, V., Amado, Pedro J., Locci, D., Tabernero, H. M., Marzari, F., Aguado, D. S., Turrini, D., Cardona Guillén, C., Toledo-Padrón, B., Maggio, Antonio, Aceituno, Jesús, Bauer, Florian Franz, Caballero, J. A., Chinchilla, P., Esparza-Borges, E., González-Álvarez, E., Granzer, Thomas, Luque, R., Martín, Eduardo Lorenzo, Nowak, G., Oshagh, M., Pallé, Enric, Parviainen, H., Quirrenbach, Andreas, Reiners, Ansgar, Ribas, Ignasi, Strassmeier, K. G., Weber, M., and Mallonn, Matthias

Abstract

Current theories of planetary evolution predict that infant giant planets have large radii and very low densities before they slowly contract to reach their final size after about several hundred million years1,2. These theoretical expectations remain untested so far as the detection and characterization of very young planets is extremely challenging due to the intense stellar activity of their host stars3,4. Only the recent discoveries of young planetary transiting systems allow initial constraints to be placed on evolutionary models5,6,7. With an estimated age of 20 million years, V1298 Tau is one of the youngest solar-type stars known to host transiting planets; it harbours a system composed of four planets, two Neptune-sized, one Saturn-sized and one Jupiter-sized8,9. Here we report a multi-instrument radial velocity campaign of V1298 Tau, which allowed us to determine the masses of two of the planets in the system. We find that the two outermost giant planets, V1298 Tau b and e (0.64 ± 0.19 and 1.16 ± 0.30 Jupiter masses, respectively), seem to contradict our knowledge of early-stages planetary evolution. According to models, they should reach their mass–radius combination only hundreds of millions of years after formation. This result suggests that giant planets can contract much more quickly than usually assumed. © 2021, The Author(s), under exclusive licence to Springer Nature Limited.

Published

2022

2. Revisiting Proxima with ESPRESSO

Author

Suárez Mascareño, A., Faria, J.P., Figueira, P., Lovis, C., Damasso, M., González Hernández, Jonay I., Rebolo López, Rafael, Cristiani, S., Pepe, F., Santos, N. C., Zapatero Osorio, María Rosa, Adibekyan, V., Hojjatpanah, Saeed, Sozzetti, Alessandro, Murgas, F., Abreu, M., Affolter, L., Alibert, Y, Aliverti, M., Allart, R, Allende Prieto, Carlos, Alves, F., Amate, M., Avila, G., Baldini, V., Bandi, T., Barros, Susana C.C., Bianco, A., Benz, W., Bouchy, F., Broeng, C., Cabral, A., Calderone, G., Cirami, R., Coelho, P., Conconi, P., Coretti, I., Cumani, C., Cupani, G., D'Odorico, V., Deiries, S., Delabre, B., Di Marcantonio, P., Dumusque, X., Ehrenreich, D., Fragoso, Ana, Genolet, L., Genoni, M., Génova-Santos, R., Lillo-Box, Jorge, Pallé, Enric, Rasilla, J. L., Santana Tschudi, S., Tenegi, F., Udry, Stephane, Zanutta, A., Zerbi, F., Suárez Mascareño, A., Faria, J.P., Figueira, P., Lovis, C., Damasso, M., González Hernández, Jonay I., Rebolo López, Rafael, Cristiani, S., Pepe, F., Santos, N. C., Zapatero Osorio, María Rosa, Adibekyan, V., Hojjatpanah, Saeed, Sozzetti, Alessandro, Murgas, F., Abreu, M., Affolter, L., Alibert, Y, Aliverti, M., Allart, R, Allende Prieto, Carlos, Alves, F., Amate, M., Avila, G., Baldini, V., Bandi, T., Barros, Susana C.C., Bianco, A., Benz, W., Bouchy, F., Broeng, C., Cabral, A., Calderone, G., Cirami, R., Coelho, P., Conconi, P., Coretti, I., Cumani, C., Cupani, G., D'Odorico, V., Deiries, S., Delabre, B., Di Marcantonio, P., Dumusque, X., Ehrenreich, D., Fragoso, Ana, Genolet, L., Genoni, M., Génova-Santos, R., Lillo-Box, Jorge, Pallé, Enric, Rasilla, J. L., Santana Tschudi, S., Tenegi, F., Udry, Stephane, Zanutta, A., and Zerbi, F.

Abstract

Context. The discovery of Proxima b marked one of the most important milestones in exoplanetary science in recent years. Yet the limited precision of the available radial velocity data and the difficulty in modelling the stellar activity calls for a confirmation of the Earth-mass planet. Aims. We aim to confirm the presence of Proxima b using independent measurements obtained with the new ESPRESSO spectrograph, and refine the planetary parameters taking advantage of its improved precision. Methods. We analysed 63 spectroscopic ESPRESSO observations of Proxima (Gl 551) taken during 2019. We obtained radial velocity measurements with a typical radial velocity photon noise of 26 cm s-1. We combined these data with archival spectroscopic observations and newly obtained photometric measurements to model the stellar activity signals and disentangle them from planetary signals in the radial velocity (RV) data. We ran a joint Markov chain Monte Carlo analysis on the time series of the RV and full width half maximum of the cross-correlation function to model the planetary and stellar signals present in the data, applying Gaussian process regression to deal with the stellar activity signals. Results. We confirm the presence of Proxima b independently in the ESPRESSO data and in the combined ESPRESSO+ HARPS+UVES dataset. The ESPRESSO data on its own shows Proxima b at a period of 11.218 ± 0.029 days, with a minimum mass of 1.29 ± 0.13 M? . In the combined dataset we measure a period of 11.18427 ± 0.00070 days with a minimum mass of 1.173 ± 0.086 M? . We get a clear measurement of the stellar rotation period (87 ± 12 d) and its induced RV signal, but no evidence of stellar activity as a potential cause for the 11.2 days signal. We find some evidence for the presence of a second short-period signal, at 5.15 days with a semi-amplitude of only 40 cm s-1. If caused by a planetary companion, it would correspond to a minimum mass of 0.29 ± 0.08 M? . We find that forthe case of Proxim

Published

2020

3. ESPRESSO highlights the binary nature of the ultra-metal-poor giant HE 0107-5240

Author

Martins, C.J.A.P., Bonifacio, P., Molaro, P., Adibekyan, V., Aguado, D., Alibert, Y, Allende Prieto, Carlos, Caffau, E., Cristiani, S., Cupani, G., Di Marcantonio, P., D'Odorico, V., Ehrenreich, D., Figueira, P., Génova-Santos, R., González Hernández, Jonay I., Lo Curto, G., Lovis, C., Mehner, A., Micela, Giusi, Monaco, L., Nunes, N.J., Pepe, F., Poretti, Ennio, Rebolo López, Rafael, Santos, N. C., Saviane, I., Sousa, S. G., Sozzetti, Alessandro, Suárez Mascareño, A., Udry, Stephane, Zapatero Osorio, María Rosa, Martins, C.J.A.P., Bonifacio, P., Molaro, P., Adibekyan, V., Aguado, D., Alibert, Y, Allende Prieto, Carlos, Caffau, E., Cristiani, S., Cupani, G., Di Marcantonio, P., D'Odorico, V., Ehrenreich, D., Figueira, P., Génova-Santos, R., González Hernández, Jonay I., Lo Curto, G., Lovis, C., Mehner, A., Micela, Giusi, Monaco, L., Nunes, N.J., Pepe, F., Poretti, Ennio, Rebolo López, Rafael, Santos, N. C., Saviane, I., Sousa, S. G., Sozzetti, Alessandro, Suárez Mascareño, A., Udry, Stephane, and Zapatero Osorio, María Rosa

Abstract

Context. The vast majority of the known stars of ultra low metallicity ([Fe=H] >-4:5) are known to be enhanced in carbon, and belong to the 'low-carbon band' (A(C) = log(C=H) + 12 7:6). It is generally, although not universally, accepted that this peculiar chemical composition reflects the chemical composition of the gas cloud out of which these stars were formed. The first ultra-metalpoor star discovered, HE 0107-5240, is also enhanced in carbon and belongs to the 'low-carbon band'. It has recently been claimed to be a long-period binary, based on radial velocity measurements. It has also been claimed that this binarity may explain its peculiar composition as being due to mass transfer from a former AGB companion. Theoretically, low-mass ratios in binary systems are much more favoured amongst Pop III stars than they are amongst solar-metallicity stars. Any constraint on the mass ratio of a system of such low metallicity would shed light on the star formation mechanisms in this metallicity regime. Aims.We acquired one high precision spectrum withESPRESSO in order to check the reality of the radial velocity variations. In addition we analysed all the spectra of this star in the ESO archive obtained with UVES to have a set of homogenously measured radial velocities. Methods. The radial velocities were measured using cross correlation against a synthetic spectrum template. Due to the weakness of metallic lines in this star, the signal comes only from the CH molecular lines of the G-band. Results. The measurement obtained in 2018 from an ESPRESSO spectrum demonstrates unambiguously that the radial velocity of HE 0107-5240 has increased from 2001 to 2018. Closer inspection of the measurements based on UVES spectra in the interval 2001-2006 show that there is a 96% probability that the radial velocity correlates with time, hence the radial velocity variations can already be suspected from the UVES spectra alone. Conclusions.We confirm the earlier claims of radial velocity

Published

2020

4. Broadband transmission spectroscopy of HD 209458b with ESPRESSO: Evidence for Na, TiO, or both

Author

Santos, N. C., Cristo, Eduardo, Demangeon, O.D.S., Oshagh, M., Allart, R, Barros, Susana C.C., Borsa, F, Bourrier, Vincent, Casasayas-Barris, N., Ehrenreich, D., Faria, J.P., Figueira, P., Martins, J.H.C., Micela, Giusi, Pallé, Enric, Sozzetti, Alessandro, Tabernero, H. M., Zapatero Osorio, María Rosa, Pepe, F., Cristiani, S., Rebolo López, Rafael, Adibekyan, V., Allende Prieto, Carlos, Alibert, Y, Bouchy, F., Cabral, A., Dekker, H., Di Marcantonio, P., D'Odorico, V., Dumusque, X., González Hernández, Jonay I., Lavie, B, Lo Curto, G., Lovis, C., Manescau, A., Martins, C.J.A.P., Mégevand, D., Mehner, A., Molaro, P., Nunes, N.J., Poretti, Ennio, Riva, M, Sousa, S. G., Suárez Mascareño, A., Santos, N. C., Cristo, Eduardo, Demangeon, O.D.S., Oshagh, M., Allart, R, Barros, Susana C.C., Borsa, F, Bourrier, Vincent, Casasayas-Barris, N., Ehrenreich, D., Faria, J.P., Figueira, P., Martins, J.H.C., Micela, Giusi, Pallé, Enric, Sozzetti, Alessandro, Tabernero, H. M., Zapatero Osorio, María Rosa, Pepe, F., Cristiani, S., Rebolo López, Rafael, Adibekyan, V., Allende Prieto, Carlos, Alibert, Y, Bouchy, F., Cabral, A., Dekker, H., Di Marcantonio, P., D'Odorico, V., Dumusque, X., González Hernández, Jonay I., Lavie, B, Lo Curto, G., Lovis, C., Manescau, A., Martins, C.J.A.P., Mégevand, D., Mehner, A., Molaro, P., Nunes, N.J., Poretti, Ennio, Riva, M, Sousa, S. G., and Suárez Mascareño, A.

Abstract

Context. The detection and characterization of exoplanet atmospheres is currently one of the main drivers pushing the development of new observing facilities. In this context, high-resolution spectrographs are proving their potential and showing that high-resolution spectroscopy will be paramount in this field. Aims. We aim to make use of ESPRESSO high-resolution spectra, which cover two transits of HD 209458b, to probe the broadband transmission optical spectrum of the planet. Methods. We applied the chromatic Rossiter-McLaughin method to derive the transmission spectrum of HD 209458b. We compared the results with previous HST observations and with synthetic spectra. Results. We recover a transmission spectrum of HD 209458b similar to the one obtained with HST data. The models suggest that the observed signal can be explained by only Na, only TiO, or both Na and TiO, even though none is fully capable of explaining our observed transmission spectrum. Extra absorbers may be needed to explain the full dataset, though modeling approximations and observational errors can also be responsible for the observed mismatch. Conclusions. Using the chromatic Rossiter-McLaughlin technique, ESPRESSO is able to provide broadband transmission spectra of exoplanets from the ground, in conjunction with space-based facilities, opening good perspectives for similar studies of other planets.

Published

2020

5. Rapid contraction of giant planets orbiting the 20-million-year-old star V1298 Tau.

Author

Suárez Mascareño, A., Damasso, M., Lodieu, N., Sozzetti, A., Béjar, V. J. S., Benatti, S., Zapatero Osorio, M. R., Micela, G., Rebolo, R., Desidera, S., Murgas, F., Claudi, R., González Hernández, J. I., Malavolta, L., Burgo, C. del, D'Orazi, V., Amado, P. J., Locci, D., Tabernero, H. M., and Marzari, F.

Published

2022