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1. The GAPS programme at TNG -- LXIII. Photo-evaporating puzzle: Exploring the enigmatic nature of TOI-5398 b atmospheric signal

Author

D'Arpa, M. C., Guilluy, G., Mantovan, G., Biassoni, F., Spinelli, R., Sicilia, D., Locci, D., Maggio, A., Lanza, A. F., Petralia, A., Di Maio, C., Benatti, S., Bonomo, A. S., Borsa, F., Cabona, L., Desidera, S., Fossati, L., Micela, G., Malavolta, L., Mancini, L., Scandariato, G., Sozzetti, A., Stangret, M., Affer, L., Amadori, F., Basilicata, M., Bignamini, A., Boschin, W., and Ghedina, A.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Atmospheric characterization is key to understanding exoplanetary systems, offering insights into the planets current and past conditions. By analyzing key lines like H alpha and the He I triplet, we can trace the evolution of planets through atmospheric photo-evaporation. While ultra-hot Jupiters have been the focus for years, attention is shifting toward smaller, colder planets, which are more challenging to study due to weaker signals, requiring more precise techniques. This study aims to characterize the atmosphere of TOI-5398 b, a warm Saturn with a 10.59-day orbit around a young (650 Myr) G-type star. The system also hosts a smaller inner planet, TOI-5398 c, with a 4.77-day orbit. Both planets are ideal for atmospheric studies due to their proximity to the host star, which drives strong photo-evaporation, especially in planet b, whose high transmission spectroscopy metric (288) makes it a prime target. We analyzed data from a transit observed with the HARPS-N and GIANO-B high-resolution spectrographs, using cross-correlation and single-line analysis to search for atomic species. During this observation, planet c was also transiting, so we investigated the source of the signals. Based on photo-evaporation models, we attribute the signal mainly to planet b, which is expected to lose more mass. We detected H alpha and He I triplets, key markers of photo-evaporation, corresponding to atmospheric heights of 2.33 Rp and 1.65 Rp, respectively. The ATES models supported our observations, predicting a similar He I absorption for planet b and suggesting an He/H ratio of 1/99. Additionally, we detected an Na I doublet via single-line analysis, though cross-correlation did not reveal other atomic species., Comment: Accepted to A&A

Published
2024

2. The GAPS Programme at TNG. LXI. Atmospheric parameters and elemental abundances of TESS young exoplanet host stars

Author

Filomeno, S., Biazzo, K., Baratella, M., Benatti, S., D'Orazi, V., Desidera, S., Mancini, L., Messina, S., Polychroni, D., Turrini, D., Cabona, L., Carleo, I., Damasso, M., Malavolta, L., Mantovan, G., Nardiello, D., Scandariato, G., Sozzetti, A., Zingales, T., Andreuzzi, G., Antoniucci, S., Bignamini, A., Bonomo, A. S., Claudi, R., Cosentino, R., Fiorenzano, A. F. M., Fonte, S., Harutyunyan, A., and Knapic, C.

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

The study of exoplanets at different evolutionary stages can shed light on their formation, migration, and evolution. The determination of exoplanet properties depends on the properties of their host stars. It is therefore important to characterise the host stars for accurate knowledge on their planets. Our final goal is to derive, in a homogeneous and accurate way, the stellar atmospheric parameters and elemental abundances of ten young TESS transiting planet-hosting GK stars followed up with the HARPS-N at TNG spectrograph within the GAPS programme. We derived stellar kinematic properties, atmospheric parameters, and abundances of 18 elements. Lithium line measurements were used as approximate age estimations. We exploited chemical abundances and their ratios to derive information on planetary composition. Elemental abundances and kinematic properties are consistent with the nearby Galactic thin disk. All targets show C/O<0.8 and 1.0

Published
2024

3. The GAPS Programme at TNG. LIX. A characterisation study of the $\sim$300 Myr old multi-planetary system orbiting the star BD+40 2790 (TOI-2076)

Author

Damasso, M., Locci, D., Benatti, S., Maggio, A., Baratella, M., Desidera, S., Biazzo, K., Palle, E., Wang, S., Nardiello, D., Borsato, L., Bonomo, A. S., Messina, S., Nowak, G., Goyal, A., Bejar, V. J. S., Bignamini, A., Cabona, L., Carleo, I., Claudi, R., Cosentino, R., Filomeno, S., Knapic, C., Lodieu, N., Lorenzi, V., Malavolta, L., Mallorquin, M., Mancini, L., Mantovan, G., Micela, G., Murgas, F., Orell-Miquel, J., Pedani, M., Pinamonti, M., Sozzetti, A., Spinelli, R., Osorio, M. R. Zapatero, and Zingales, T.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We collected more than 300 high-resolution spectra of the 300 Myr old star BD+40 2790 (TOI-2076) over ~3 years. This star hosts three transiting planets discovered by TESS, with orbital periods ~10, 21, and 35 days. BD+40 2790 shows an activity-induced scatter larger than 30 m/s in the radial velocities. We employed different methods to measure the stellar radial velocities and several models to filter out the dominant stellar activity signal, in order to bring to light the planet-induced signals which are expected to have semi-amplitudes one order of magnitude lower. We evaluated the mass loss rate of the planetary atmospheres using photoionization hydrodynamic modeling. The dynamical analysis confirms that the three sub-Neptune-sized companions (our radius measurements are $R_b$=2.54$\pm$0.04, $R_c$=3.35$\pm$0.05, and $R_d$=3.29$\pm$0.06 $R_{\rm Earth}$) have masses in the planetary regime. We derive 3$\sigma$ upper limits below or close to the mass of Neptune for all the planets: 11--12, 12--13.5, and 14--19 $M_{\rm Earth}$ for planet $b$, $c$, and $d$ respectively. In the case of planet $d$, we found promising clues that the mass could be between ~7 and 8 $M_{\rm Earth}$, with a significance level between 2.3--2.5$\sigma$ (at best). This result must be further investigated using other analysis methods or using high-precision near-IR spectrographs to collect new radial velocities, which could be less affected by stellar activity. Atmospheric photo-evaporation simulations predict that BD+40~2790 b is currently losing its H-He gaseous envelope, which will be completely lost at an age within 0.5--3 Gyr if its current mass is lower than 12 $M_{\rm Earth}$. BD+40 2790 c could have a lower bulk density than $b$, and it could retain its atmosphere up to an age of 5 Gyr. For the outermost planet $d$, we predict almost negligible evolution of its mass and radius induced by photo-evaporation., Comment: Accepted for publication on A&A. Abstract abridged

Published
2024
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4. End-to-End simulation framework for astronomical spectrographs: SOXS, CUBES and ANDES

Author

Scaudo, A., Genoni, M., Causi, G. Li, Cabona, L., Landoni, M., Campana, S., Schipani, P., Claudi, R., Aliverti, M., Baruffolo, A., Ben-Ami, S., Biondi, F., Capasso, G., Cosentino, R., D'Alessio, F., D'Avanzo, P., Hershko, O., Kuncarayakti, H., Munari, M., Santhakumari, K. Radhakrishnan, Pignata, G., Rubin, A., Scuderi, S., Vitali, F., Young, D., Achrén, J., Araiza-Duran, J. A., Arcavi, I., Battaini, F., Brucalassi, A., Bruch, R., Cappellaro, E., Colapietro, M., Della Valle, M., De Pascale, M., Di Benedetto, R., D'Orsi, S., Gal-Yam, A., Hernandez, M., Kotilainen, J., Marty, L., Mattila, S., Rappaport, M., Ricci, D., Riva, M., Salasnich, B., Smartt, S., Sanchez, R. Zanmar, Stritzinger, M., Ventura, H., Cupani, G., Porru, M., Franchini, M., Cirami, R., Calderone, G., Covino, S., Smiljanic, R., Monteiro, M., Balestra, A., Sordo, R., Mason, E., Rousseu, S., Leão, I. de Castro, Zanutta, A., Martins, A. de Meideros, Sosnowska, D., Marquart, T., Boisse, I., Sousa, S., Hernandez, J., Piskunov, N., Puschnig, J., Senna, N., Martins, B., Di Marcantonio, P., and Marconi, A.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

We present our numerical simulation approach for the End-to-End (E2E) model applied to various astronomical spectrographs, such as SOXS (ESO-NTT), CUBES (ESO-VLT), and ANDES (ESO-ELT), covering multiple wavelength regions. The E2E model aim at simulating the expected astronomical observations starting from the radiation of the scientific sources (or calibration sources) up to the raw-frame data produced by the detectors. The comprehensive description includes E2E architecture, computational models, and tools for rendering the simulated frames. Collaboration with Data Reduction Software (DRS) teams is discussed, along with efforts to meet instrument requirements. The contribution to the cross-correlation algorithm for the Active Flexure Compensation (AFC) system of CUBES is detailed., Comment: 19 pages, 17 figures, SPIE Astronomical Telescopes + Instrumentation, Yokohama 2024. arXiv admin note: text overlap with arXiv:2209.07185, arXiv:2012.12684

Published
2024

5. Final Alignment and Image Quality Test for the Acquisition and Guiding System of SOXS

Author

Araiza-Duran, J. A., Pignata, G., Brucalassi, A., Aliverti, M., Battaini, F., Radhakrishnan, K., Di Filippo, S., Lessio, L., Claudi, R., Ricci, D., Colapietro, M., Cosentino, R., D'Orsi, S., Munari, M., Dima, M., Schipani, P., Campana, S., Baruffolo, A., Sanchez, R. Zanmar, Riva, M., Genoni, M., Ben-Ami, S., Rubin, A., Bruch, R., Capasso, G., D'Alessio, F., D'Avanzo, P., Hershko, O., Kuncarayakti, H., Landoni, M., Scuderi, S., Vitali, F., Young, D., Achren, J., Arcavi, I., Cappellaro, E., Della Valle, M., Di Benedetto, R., Gal-Yam, A., Diaz, M. Hernandez, Kotilainen, J., Causi, G. Li, Marty, L., Mattila, S., Rappaport, M., Salasnich, B., Smartt, S., Stritzinger, M., Ventura, H. Perez, Asquini, L., Bichkovsky, A., Savarese, S., and Cabona, L.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

SOXS (Son Of X-Shooter) will be the new medium-resolution (R 4500 for 1 slit), high-efficiency, wide-band spectrograph for the ESO NTT at La Silla Observatory, Chile. It will be dedicated to the follow-up of any kind of transient events, ensuring fast time, high efficiency, and availability. It consists of a central structure (common path) that supports two spectrographs optimized for the UV-Visible and a Near-Infrared range. Attached to the common path is the Acquisition and Guiding Camera system (AC), equipped with a filter wheel that can provide science-grade imaging and moderate high-speed photometry. The AC Unit was integrated and aligned during the summer months of 2022 and has since been mounted in the NTTs telescope simulator. This work gives an update on the Acquisition Camera Unit status, describes the Image Quality Tests that were performed, and discusses the AC Optical Performance., Comment: SPIE Proceedings Volume 13096, Ground-based and Airborne Instrumentation for Astronomy X; 1309672 (2024)

Published
2024
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6. Walking with SOXS towards the transient sky

Author

Schipani, P., Campana, S., Claudi, R., Aliverti, M., Baruffolo, A., Ben-Ami, S., Capasso, G., Colapietro, M., Cosentino, R., D'Alessio, F., D'Avanzo, P., Genoni, M., Hershko, O., Kuncarayakti, H., Landoni, M., Munari, M., Pignata, G., Radhakrishnan, K., Ricci, D., Rubin, A., Scuderi, S., Vitali, F., Young, D., Accardo, M., Achrén, J., Araiza-Durán, J. A., Arcavi, I., Asquini, L., Battaini, F., Bichkovsky, A., Brucalassi, A., Bruch, R., Cabona, L., Cappellaro, E., Della Valle, M., Di Filippo, S., Di Benedetto, R., D'Orsi, S., Gal-Yam, A., Hernandez, M., Ives, D., Kaeufl, H. -U., Kotilainen, J., Causi, G. Li, Lessio, L., Marty, L., Mattila, S., Mehrgan, L., Pasquini, L., Pompei, E., Rappaport, M., Riva, M., Salasnich, B., Savarese, S., Saviane, I., Schöller, M., Silber, A., Smartt, S., Sanchez, R. Zanmar, Stritzinger, M., Sulich, A., and Ventura, H.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

SOXS (Son Of X-Shooter) is the new ESO instrument that is going to be installed on the 3.58-m New Technology Telescope at the La Silla Observatory. SOXS is a single object spectrograph offering a wide simultaneous spectral coverage from U- to H-band. Although such an instrument may have potentially a large variety of applications, the consortium designed it with a clear science case: it is going to provide the spectroscopic counterparts to the ongoing and upcoming imaging surveys, becoming one of the main follow-up instruments in the Southern hemisphere for the classification and characterization of transients. The NTT+SOXS system is specialized to observe all transients and variable sources discovered by imaging surveys with a flexible schedule maintained by the consortium, based on a remote scheduler which will interface with the observatory software infrastructure. SOXS is realized timely to be highly synergic with transients discovery machines like the Vera C. Rubin Observatory. The instrument has been integrated and tested in Italy, collecting and assembling subsystems coming from all partners spread over six countries in three continents. The first preparatory activities in Chile have been completed at the telescope. This article gives an updated status of the project before the shipping of the instrument to Chile., Comment: SPIE Astronomical Telescopes + Instrumentation, 2024, Yokohama, Japan

Published
2024
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7. ANDES, the high resolution spectrograph for the ELT: science goals, project overview and future developments

Author

Marconi, A., Abreu, M., Adibekyan, V., Alberti, V., Albrecht, S., Alcaniz, J., Aliverti, M., Prieto, C. Allende, Gómez, J. D. Alvarado, Alves, C. S., Amado, P. J., Amate, M., Andersen, M. I., Antoniucci, S., Artigau, E., Bailet, C., Baker, C., Baldini, V., Balestra, A., Barnes, S. A., Baron, F., Barros, S. C. C., Bauer, S. M., Beaulieu, M., Bellido-Tirado, O., Benneke, B., Bensby, T., Bergin, E. A., Berio, P., Biazzo, K., Bigot, L., Bik, A., Birkby, J. L., Blind, N., Boebion, O., Boisse, I., Bolmont, E., Bolton, J. S., Bonaglia, M., Bonfils, X., Bonhomme, L., Borsa, F., Bouret, J. -C., Brandeker, A., Brandner, W., Broeg, C. H., Brogi, M., Brousseau, D., Brucalassi, A., Brynnel, J., Buchhave, L. A., Buscher, D. F., Cabona, L., Cabral, A., Calderone, G., Calvo-Ortega, R., Cantalloube, F., Martins, B. L. Canto, Carbonaro, L., Caujolle, Y., Chauvin, G., Chazelas, B., Cheffot, A. -L., Cheng, Y. S., Chiavassa, A., Christensen, L., Cirami, R., Cirasuolo, M., Cook, N. J., Cooke, R. J., Coretti, I., Covino, S., Cowan, N., Cresci, G., Cristiani, S., Parro, V. Cunha, Cupani, G., D'Odorico, V., Dadi, K., Leão, I. de Castro, De Cia, A., De Medeiros, J. R., Debras, F., Debus, M., Delorme, A., Demangeon, O., Derie, F., Dessauges-Zavadsky, M., Di Marcantonio, P., Di Stefano, S., Dionies, F., de Souza, A. Domiciano, Doyon, R., Dunn, J., Egner, S., Ehrenreich, D., Faria, J. P., Ferruzzi, D., Feruglio, C., Fisher, M., Fontana, A., Frank, B. S., Fuesslein, C., Fumagalli, M., Fusco, T., Fynbo, J., Gabella, O., Gaessler, W., Gallo, E., Gao, X., Genolet, L., Genoni, M., Giacobbe, P., Giro, E., Goncalves, R. S., Gonzalez, O. A., Hernández, J. I. González, Gouvret, C., Temich, F. Gracia, Haehnelt, M. G., Haniff, C., Hatzes, A., Helled, R., Hoeijmakers, H. J., Hughes, I., Huke, P., Ivanisenko, Y., Järvinen, A. S., Järvinen, S. P., Kaminski, A., Kern, J., Knoche, J., Kordt, A., Korhonen, H., Korn, A. J., Kouach, D., Kowzan, G., Kreidberg, L., Landoni, M., Lanotte, A. A., Lavail, A., Lavie, B., Lee, D., Lehmitz, M., Li, J., Li, W., Liske, J., Lovis, C., Lucatello, S., Lunney, D., MacIntosh, M. J., Madhusudhan, N., Magrini, L., Maiolino, R., Maldonado, J., Malo, L., Man, A. W. S., Marquart, T., Marques, C. M. J., Marques, E. L., Martinez, P., Martins, A., Martins, C. J. A. P., Martins, J. H. C., Maslowski, P., Mason, C. A., Mason, E., McCracken, R. A., Sousa, M. A. F. Melo e, Mergo, P., Micela, G., Milaković, D., Molliere, P., Monteiro, M. A., Montgomery, D., Mordasini, C., Morin, J., Mucciarelli, A., Murphy, M. T., N'Diaye, M., Nardetto, N., Neichel, B., Neri, N., Niedzielski, A. T., Niemczura, E., Nisini, B., Nortmann, L., Noterdaeme, P., Nunes, N. J., Oggioni, L., Olchewsky, F., Oliva, E., Onel, H., Origlia, L., Ostlin, G., Ouellette, N. N. -Q., Palle, E., Papaderos, P., Pariani, G., Pasquini, L., Castro, J. Peñate, Pepe, F., Peroux, C., Levasseur, L. Perreault, Perruchot, S., Petit, P., Pfuhl, O., Pino, L., Piqueras, J., Piskunov, N., Pollo, A., Poppenhaeger, K., Porru, M., Puschnig, J., Quirrenbach, A., Rauscher, E., Rebolo, R., Redaelli, E. M. A., Reffert, S., Reid, D. T., Reiners, A., Richter, P., Riva, M., Rivoire, S., Rodriguez-López, C., Roederer, I. U., Romano, D., Roth, M., Rousseau, S., Rowe, J., Saccardi, A., Salvadori, S., Sanna, N., Santos, N. C., Diaz, P. Santos, Sanz-Forcada, J., Sarajlic, M., Sauvage, J. -F., Savio, D., Scaudo, A, Schäfer, S., Schiavon, R. P., Schmidt, T. M., Selmi, C., Simoes, R., Simonnin, A., Sivanandam, S., Sordet, M., Sordo, R., Sortino, F., Sosnowska, D., Sousa, S. G., Spang, A., Spiga, R., Stempels, E., Stevenson, J. R. Y., Strassmeier, K. G., Mascareño, A. Suárez, Sulich, A., Sun, X., Tanvir, N. R., Tenegi-Sangines, F., Thibault, S., Thompson, S. J., Tisserand, P., Tozzi, A., Turbet, M., Veran, J. -P., Vallee, P., Vanni, I., Varas, R., Vega-Moreno, A., Venn, K. A., Verma, A., Vernet, J., Viel, M., Wade, G., Waring, C., Weber, M., Weder, J., Wehbe, B., Weingrill, J., Woche, M., Xompero, M., Zackrisson, E., Zanutta, A., Osorio, M. R. Zapatero, Zechmeister, M., and Zimara, J.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The first generation of ELT instruments includes an optical-infrared high-resolution spectrograph, indicated as ELT-HIRES and recently christened ANDES (ArmazoNes high Dispersion Echelle Spectrograph). ANDES consists of three fibre-fed spectrographs ([U]BV, RIZ, YJH) providing a spectral resolution of $\sim$100,000 with a minimum simultaneous wavelength coverage of 0.4-1.8 $\mu$m with the goal of extending it to 0.35-2.4 $\mu$m with the addition of a U arm to the BV spectrograph and a separate K band spectrograph. It operates both in seeing- and diffraction-limited conditions and the fibre feeding allows several, interchangeable observing modes including a single conjugated adaptive optics module and a small diffraction-limited integral field unit in the NIR. Modularity and fibre-feeding allow ANDES to be placed partly on the ELT Nasmyth platform and partly in the Coud\'e room. ANDES has a wide range of groundbreaking science cases spanning nearly all areas of research in astrophysics and even fundamental physics. Among the top science cases, there are the detection of biosignatures from exoplanet atmospheres, finding the fingerprints of the first generation of stars, tests on the stability of Nature's fundamental couplings, and the direct detection of the cosmic acceleration. The ANDES project is carried forward by a large international consortium, composed of 35 Institutes from 13 countries, forming a team of almost 300 scientists and engineers which include the majority of the scientific and technical expertise in the field that can be found in ESO member states., Comment: SPIE astronomical telescope and instrumentation 2024, in press

Published
2024

8. The GAPS programme at TNG. LVII. TOI-5076b: A warm sub-Neptune planet orbiting a thin-to-thick-disk transition star in a wide binary system

Author

Montalto, M., Greco, N., Biazzo, K., Desidera, S., Andreuzzi, G., Bieryla, A., Bignamini, A., Bonomo, A. S., Briceño, C., Cabona, L., Cosentino, R., Damasso, M., Fiorenzano, A., Fong, W., Goeke, B., Hesse, K. M., Kostov, V. B., Lanza, A. F., Latham, D. W., Law, N., Mancini, L., Maggio, A., Molinaro, M., Mann, A. W., Mantovan, G., Naponiello, L., Nardiello, D., Nascimbeni, V., Pagano, I., Pedani, M., Safonov, B. S., Scandariato, G., Seager, S., Singh, V., Sozzetti, A., Strakhov, I. A., Winn, J. N., Ziegler, C., and Zingales, T.

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics
Abstract

Aims. We report the confirmation of a new transiting exoplanet orbiting the star TOI-5076. Methods. We present our vetting procedure and follow-up observations which led to the confirmation of the exoplanet TOI-5076b. In particular, we employed high-precision {\it TESS} photometry, high-angular-resolution imaging from several telescopes, and high-precision radial velocities from HARPS-N. Results. From the HARPS-N spectroscopy, we determined the spectroscopic parameters of the host star: T$\rm_{eff}$=(5070$\pm$143) K, log~g=(4.6$\pm$0.3), [Fe/H]=(+0.20$\pm$0.08), and [$\alpha$/Fe]=0.05$\pm$0.06. The transiting planet is a warm sub-Neptune with a mass m$\rm_p=$(16$\pm$2) M$\rm_{\oplus}$, a radius r$\rm_p=$(3.2$\pm$0.1)~R$\rm_{\oplus}$ yielding a density $\rho_p$=(2.8$\pm$0.5) g cm$^{-3}$. It revolves around its star approximately every 23.445 days. Conclusions. The host star is a metal-rich, K2V dwarf, located at about 82 pc from the Sun with a radius of R$_{\star}$=(0.78$\pm$0.01) R$_{\odot}$ and a mass of M$_{\star}$=(0.80$\pm$0.07) M$_{\odot}$. It forms a common proper motion pair with an M-dwarf companion star located at a projected separation of 2178 au. The chemical analysis of the host-star and the Galactic-space velocities indicate that TOI-5076 belongs to the old population of thin-to-thick-disk transition stars. The density of TOI-5076b suggests the presence of a large fraction by volume of volatiles overlying a massive core. We found that a circular orbit solution is marginally favored with respect to an eccentric orbit solution for TOI-5076b., Comment: Accepted by Astronomy & Astrophysics: 15 pages, 19 figures, 4 tables

Published
2024

9. Orbital obliquity of the young planet TOI-5398 b and the evolutionary history of the system

Author

Mantovan, G., Malavolta, L., Locci, D., Polychroni, D., Turrini, D., Maggio, A., Desidera, S., Spinelli, R., Benatti, S., Piotto, G., Lanza, A. F., Marzari, F., Sozzetti, A., Damasso, M., Nardiello, D., Cabona, L., D'Arpa, M., Guilluy, G., Mancini, L., Micela, G., Nascimbeni, V., and Zingales, T.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Multi-planet systems exhibit remarkable architectural diversity. However, short-period giant planets are typically isolated. Compact systems like TOI-5398, with an outer close-orbit giant and an inner small-size planet, are rare among systems containing short-period giants. TOI-5398's unusual architecture coupled with its young age (650 $\pm$ 150 Myr) make it a promising system for measuring the original obliquity between the orbital axis of the giant and the stellar spin axis in order to gain insight into its formation and orbital migration. We collected in-transit (plus suitable off-transit) observations of TOI-5398 b with HARPS-N at TNG on March 25, 2023, obtaining high-precision radial velocity time series that allowed us to measure the Rossiter-McLaughlin (RM) effect. By modelling the RM effect, we obtained a sky-projected obliquity of $\lambda = 3.0^{+6.8}_{-4.2}$ deg for TOI-5398 b, consistent with the planet being aligned. With knowledge of the stellar rotation period, we estimated the true 3D obliquity, finding $\psi = (13.2\pm8.2)$ deg. Based on theoretical considerations, the orientation we measure is unaffected by tidal effects, offering a direct diagnostic for understanding the formation path of this planetary system. The orbital characteristics of TOI-5398, with its compact architecture, eccentricity consistent with circular orbits, and hints of orbital alignment, appear more compatible with the disc-driven migration scenario. TOI-5398, with its relative youth (compared with similar compact systems) and exceptional suitability for transmission spectroscopy studies, presents an outstanding opportunity to establish a benchmark for exploring the disc-driven migration model., Comment: Accepted for publication in Astronomy & Astrophysics on 30/03/2024. Electronic material (spectroscopic time series, table A1) will soon be available on the CDS or upon request to the first author. 10 pages, 9 figures, and 3 tables

Published
2024

10. The GAPS Programme at TNG LV. Multiple molecular species in the atmosphere of HAT-P-11 b and review of the HAT-P-11 planetary system

Author

Basilicata, M., Giacobbe, P., Bonomo, A. S., Scandariato, G., Brogi, M., Singh, V., Di Paola, A., Mancini, L., Sozzetti, A., Lanza, A. F., Cubillos, P. E., Damasso, M., Desidera, S., Biazzo, K., Bignamini, A., Borsa, F., Cabona, L., Carleo, I., Ghedina, A., Guilluy, G., Maggio, A., Mainella, G., Micela, G., Molinari, E., Molinaro, M., Nardiello, D., Pedani, M., Pino, L., Poretti, E., Southworth, J., Stangret, M., and Turrini, D.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

The atmospheric characterisation of hot and warm Neptune-size exoplanets is challenging due to their small radius and atmospheric scale height. The warm-Neptune HAT-P-11b is a remarkable target for such characterisation due to the large brightness of its host star (V=9.46 mag; H=7.13 mag). The aims of this work are to review the main physical and architectural properties of the HAT-P-11 planetary system, and to probe the presence of 8 molecular species in the atmosphere of HAT-P-11b at high spectral resolution in the near-infrared. The planetary system was reviewed by analysing transits and occultations of HAT-P-11b from the Kepler data set as well as HIRES at Keck archival radial-velocity (RV) data. We modelled the latter with Gaussian-process regression and a combined quasi-periodic and squared-exponential kernel to account for stellar variations on both (short-term) rotation and (long-term) activity-cycle timescales. In order to probe the atmospheric composition of HAT-P-11b, we observed 4 transits of this target with GIANO-B at TNG. We find that the long-period ($P\sim9.3$ years) RV signal previously attributed to planet HAT-P-11c is more likely due to the stellar magnetic activity cycle. Nonetheless, the Hipparcos-Gaia difference in the proper-motion anomaly suggests that an outer-bound companion might still exist. For HAT-P-11b, we measure a radius $R_{\rm p}=0.4466\pm0.0059\,R_{\rm J}$, a mass $M_{\rm p}=0.0787\pm0.0048\,M_{\rm J}$, and an eccentricity $e=0.2577^{+0.0033}_{-0.0025}$, in accordance with values in the literature. Probing its atmosphere, we detect $NH_3$ (S/N$=5.3$, significance$=5.0\sigma$) and confirm the presence of $H_2O$ (S/N$=5.1$, significance$=3.4\sigma$). We also tentatively detect the signal of $CO_2$ (S/N$=3.0$, significance$=3.2\sigma$) and $CH_4$ (S/N$=4.8$, significance$=2.6\sigma$), whose presence need to be confirmed by further observations., Comment: 25 pages, 19 figures, accepted for publication in Astronomy & Astrophysics (A&A) journal. Version corrected by the language editor, title edited

Published
2024
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11. The GAPS Programme at TNG. LIII. New insights on the peculiar XO-2 system

Author

Ruggieri, A., Desidera, S., Biazzo, K., Pinamonti, M., Marzari, F., Mantovan, G., Sozzetti, A., Bonomo, A. S., Lanza, A. F., Malavolta, L., Claudi, R., Damasso, M., Gratton, R., Nardiello, D., Benatti, S., Bignamini, A., Andreuzzi, G., Borsa, F., Cabona, L., Knapic, C., Molinari, E., Pino, L., and Zingales, T.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Planets in binary systems are a fascinating and yet poorly understood phenomenon. Since there are only a few known large-separation systems in which both components host planets, characterizing them is a key target for planetary science. In this paper, we aim to carry out an exhaustive analysis of the interesting XO-2 system, where one component appears to be a system with only one planet, while the other has at least three planets. Over the last 9 years, we have collected 39 spectra of XO-2N and 106 spectra of XO-2S with the High Accuracy Radial velocity Planet Searcher for the Northern emisphere (HARPS-N) in the framework of the Global Architecture of Planetary Systems project, from which we derived precise radial velocity and activity indicator measurements. Additional spectroscopic data from the High Resolution Echelle Spectrometer and from the High Dispersion Spectrograph, and the older HARPS-N data presented in previous papers, have also been used to increase the total time span. We also used photometric data from TESS to search for potential transits that have not been detected yet. For our analysis, we mainly used PyORBIT, an advanced Python tool for the Bayesian analysis of RVs, activity indicators, and light curves. We found evidence for an additional long-period planet around XO-2S and characterized the activity cycle likely responsible for the long-term RV trend noticed for XO-2N. The new candidate is an example of a Jovian analog with $m\sin i \sim 3.7$ M$_J$, $a \sim 5.5$ au, and $e = 0.09$. We also analyzed the stability and detection limits to get some hints about the possible presence of additional planets. Our results show that the planetary system of XO-2S is at least one order of magnitude more massive than that of XO-2N. The implications of these findings for the interpretation of the previously known abundance difference between components are also discussed.

Published
2024
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12. The GAPS programme at TNG LII. Spot modeling of V1298 Tau using SpotCCF tool

Author

Di Maio, C., Petralia, A., Micela, G., Lanza, A. F., Rainer, M., Malavolta, L., Benatti, S., Affer, L., Maldonado, J., Colombo, S., Damasso, M., Maggio, A., Biazzo, K., Bignamini, A., Borsa, F., Boschin, W., Cabona, L., Cecconi, M., Claudi, R., Covino, E., Di Fabrizio, L., Gratton, R., Lorenzi, V., Mancini, L., Messina, S., Molinari, E., Molinaro, M., Nardiello, D., Poretti, E., and Sozzetti, A.

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

The intrinsic variability due to the magnetic activity of young active stars is one of the main challenges in detecting and characterising exoplanets. We present a method able to model the stellar photosphere and its surface inhomogeneities (starspots) in young/active and fast-rotating stars, based on the cross-correlation function (CCF) technique, to extract information about the spot configuration of the star. Within the Global Architecture of Planetary Systems (GAPS) Project at the Telescopio Nazionale Galileo, we analysed more than 300 spectra of the young planet-hosting star V1298 Tau provided by HARPS-N high-resolution spectrograph. By applying the SpotCCF model to the CCFs we extracted the spot configuration (latitude, longitude and projected filling factor) of this star, and also provided the new RVs time series of this target. We find that the features identified in the CCF profiles of V1298 Tau are modulated by the stellar rotation, supporting our assumption that they are caused by starspots. The analysis suggests a differential rotation velocity of the star with lower rotation at higher latitudes. Also, we find that SpotCCF provides an improvement in RVs extraction with a significantly lower dispersion with respect to the commonly used pipelines, with consequent mitigation of the stellar activity contribution modulated with stellar rotation. A detection sensitivity test, by the direct injection of a planetary signal into the data, confirmed that the SpotCCF model improves the sensitivity and ability to recover planetary signals. Our method enables the modelling of the stellar photosphere, extracting the spot configuration of young/active and rapidly rotating stars. It also allows for the extraction of optimised RV time series, thereby enhancing our detection capabilities for new exoplanets and advancing our understanding of stellar activity., Comment: 18 pages, 20 figures, accepted by A&A

Published
2023

13. The GAPS Programme at TNG L -- TOI-4515 b: An eccentric warm Jupiter orbiting a 1.2 Gyr-old G-star

Author

Carleo, I., Malavolta, L., Desidera, S., Nardiello, D., Wang, S., Turrini, D., Lanza, A. F., Baratella, M., Marzari, F., Benatti, S., Biazzo, K., Bieryla, A., Brahm, R., Bonavita, M., Collins, K. A., Hellier, C., Locci, D., Hobson, M. J., Maggio, A., Mantovan, G., Pinamonti, S. Messina M., Rodriguez, J. E., Sozzetti, A., Stassun, K., Wang, X. Y., Ziegler, C., Damasso, M., Giacobbe, P., Murgas, F., Parviainen, H., Andreuzzi, G., Barkaoui, K., Berlind, P., Bignamini, A., Borsa, F., Briceño, C., Brogi, M., Cabona, L., Calkins, M. L., Capuzzo-Dolcetta, R., Cecconi, M., Colon, K. D., Cosentino, R., Dragomir, D., Esquerdo, G. A., Henning, T., Ghedina, A., Goeke, R. F., Gratton, R., Horta, F. Grau, Gupta, A. F., Jenkins, J. M., Jordán, A., Knapic, C., Latham, D. W., Mireles, I., Law, N., Lorenzi, V., Lund, M. B., Maldonado, J., Mann, A. W., Molinari, E., Pallé, E., Paegert, M., Pedani, M., Quinn, S. N., Scandariato, G., Seager, S., Winn, J. N., Wohler, B., and Zingales, T.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Context. Different theories have been developed to explain the origins and properties of close-in giant planets, but none of them alone can explain all of the properties of the warm Jupiters (WJs, Porb = 10 - 200 days). One of the most intriguing characteristics of WJs is that they have a wide range of orbital eccentricities, challenging our understanding of their formation and evolution. Aims. The investigation of these systems is crucial in order to put constraints on formation and evolution theories. TESS is providing a significant sample of transiting WJs around stars bright enough to allow spectroscopic follow-up studies. Methods. We carried out a radial velocity (RV) follow-up study of the TESS candidate TOI-4515 b with the high-resolution spectrograph HARPS-N in the context of the GAPS project, the aim of which is to characterize young giant planets, and the TRES and FEROS spectrographs. We then performed a joint analysis of the HARPS-N, TRES, FEROS, and TESS data in order to fully characterize this planetary system. Results. We find that TOI-4515 b orbits a 1.2 Gyr-old G-star, has an orbital period of Pb = 15.266446 +- 0.000013 days, a mass of Mb = 2.01 +- 0.05 MJ, and a radius of Rb = 1.09 +- 0.04 RJ. We also find an eccentricity of e = 0.46 +- 0.01, placing this planet among the WJs with highly eccentric orbits. As no additional companion has been detected, this high eccentricity might be the consequence of past violent scattering events., Comment: 20 pages, 16 figures

Published
2023

14. The GAPS programme at TNG XLIX. TOI-5398, the youngest compact multi-planet system composed of an inner sub-Neptune and an outer warm Saturn

Author

Mantovan, G., Malavolta, L., Desidera, S., Zingales, T., Borsato, L., Piotto, G., Maggio, A., Locci, D., Polychroni, D., Turrini, D., Baratella, M., Biazzo, K., Nardiello, D., Stassun, K., Nascimbeni, V., Benatti, S., John, A. Anna, Watkins, C., Bieryla, A., Lissauer, J. J., Twicken, J. D., Lanza, A. F., Winn, J. N., Messina, S., Montalto, M., Sozzetti, A., Boffin, H., Cheryasov, D., Strakhov, I., Murgas, F., D'Arpa, M., Barkaoui, K., Benni, P., Bignamini, A., Bonomo, A., Borsa, F., Cabona, L., Cameron, A. C., Claudi, R., Cochran, W., Collins, K. A., Damasso, M., Dong, J., Endl, M., Fukui, A., Furész, G., Gandolfi, D., Ghedina, A., Jenkins, J., Kabáth, P., Latham, D. W., Lorenzi, V., Luque, R., Maldonado, J., McLeod, K., Molinaro, M., Narita, N., Nowak, G., Orell-Miquel, J., Pallé, E., Parviainen, H., Pedani, M., Quinn, S. N., Relles, H., Rowden, P., Scandariato, G., Schwarz, R., Seager, S., Shporer, A., Vanderburg, A., and Wilson, T. G.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Short-period giant planets are frequently found to be solitary compared to other classes of exoplanets. Small inner companions to giant planets with $P \lesssim$ 15 days are known only in five compact systems: WASP-47, Kepler-730, WASP-132, TOI-1130, and TOI-2000. Here, we report the confirmation of TOI-5398, the youngest compact multi-planet system composed of a hot sub-Neptune (TOI-5398 c, $P_{\rm c}$ = 4.77271 days) orbiting interior to a short-period Saturn (TOI-5398 b, $P_{\rm b}$ = 10.590547 days) planet, both transiting around a 650 $\pm$ 150 Myr G-type star. As part of the GAPS Young Object project, we confirmed and characterised this compact system, measuring the radius and mass of both planets, thus constraining their bulk composition. Using multidimensional Gaussian processes, we simultaneously modelled stellar activity and planetary signals from TESS Sector 48 light curve and our HARPS-N radial velocity time series. We have confirmed the planetary nature of both planets, TOI-5398 b and TOI-5398 c, alongside a precise estimation of stellar parameters. Through the use of astrometric, photometric, and spectroscopic observations, our findings indicate that TOI-5398 is a young, active G dwarf star (650 $\pm$ 150 Myr), with a rotational period of $P_{\rm rot}$ = 7.34 days. The transit photometry and radial velocity measurements enabled us to measure both the radius and mass of planets b, $R_b = 10.30\pm0.40 R_{\oplus}$, $M_b = 58.7\pm5.7 M_{\oplus}$, and c, $R_c = 3.52 \pm 0.19 R_{\oplus}$, $M_c = 11.8\pm4.8 M_{\oplus}$. TESS observed TOI-5398 during sector 48 and no further observations are planned in the current Extended Mission, making our ground-based light curves crucial for ephemeris improvement. With a Transmission Spectroscopy Metric value of around 300, TOI-5398 b is the most amenable warm giant (10 < $P$ < 100 days) for JWST atmospheric characterisation., Comment: 29 pages, Paper accepted for publication in Astronomy & Astrophysics

Published
2023

15. Photometric follow-up of the 20 Myr-old multi-planet host star V1298~Tau with CHEOPS and ground-based telescopes

Author

Damasso, M., Scandariato, G., Nascimbeni, V., Nardiello, D., Mancini, L., Marino, G., Bruno, G., Brandeker, A., Leto, G., Marzari, F., Lanza, A. F., Benatti, S., Desidera, S., Béjar, V. J. S., Biagini, A., Borsato, L., Cabona, L., Claudi, R., Lodieu, N., Maggio, A., Díaz, M. Mallorquín, Messina, S., Micela, G., Ricci, D., Sozzetti, A., Mascareño, A. Suárez, Turrini, D., and Osorio, M. R. Zapatero

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

V1298 Tau hosts at least four planets. Since its discovery, this system has been a target of intensive photometric and spectroscopic monitoring. The characterisation of its architecture and planets' fundamental properties turned out to be very challenging so far. The determination of the orbital ephemeris of the outermost planet V1298 Tau $e$ remains an open question. Only two transits have been detected so far by $Kepler/K2$ and TESS, allowing for a grid of reference periods to be tested with new observations, without excluding the possibility of transit timing variations. Observing a third transit would allow to better constrain the orbital period, and would also help determining an accurate radius of V1298 Tau $e$ because the former transits showed different depths. We observed V1298 Tau with the CHEOPS space telescope to search for a third transit of planet $e$ within observing windows that have been selected in order to test three of the shortest predicted orbital periods. We also collected ground-based observations to verify the result found with CHEOPS. We reanalysed $Kepler/K2$ and TESS light curves to test how the results derived from these data are affected by alternative photometric extraction and detrending methods. We report the detection with CHEOPS of a transit that could be attributed to V1298 Tau $e$. If so, that result implies that the orbital period calculated from fitting a linear ephemeris to the three available transits is close to $\sim45$ days. Results from the ground-based follow-up marginally support this possibility. We found that $\textit{i}$) the transit observed by CHEOPS has a longer duration compared to that of the transits observed by $Kepler/K2$ and TESS; $\textit{ii}$) the transit observed by TESS is $>30\%$ deeper than that of $Kepler/K2$ and CHEOPS, and deeper than the measurement previously reported in the literature, according to our reanalysis., Comment: Accepted for publication on A&A. The abstract has been edited to fulfill the arXiv requirements

Published
2023

16. The GAPS programme at TNG XLIV. Projected rotational velocities of 273 exoplanet-host stars observed with HARPS-N

Author

Rainer, M., Desidera, S., Borsa, F., Barbato, D., Biazzo, K., Bonomo, A., Gratton, R., Messina, S., Scandariato, G., Affer, L., Benatti, S., Carleo, I., Cabona, L., Covino, E., Lanza, A. F., Ligi, R., Maldonado, J., Mancini, L., Nardiello, D., Sicilia, D., Sozzetti, A., Bignamini, A., Cosentino, R., Knapic, C., Fiorenzano, A. F. Martínez, Molinari, E., Pedani, M., and Poretti, E.

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

The leading spectrographs used for exoplanets' sceince offer online data reduction softwares (DRS) that yield as an ancillary result the full-width at half-maximum (FWHM) of the cross-correlation function (CCF) that is used to estimate the radial velocity of the host star. The FWHM also contains information on the stellar projected rotational velocity vsini We wanted to establish a simple relationship to derive the vsini directly from the FWHM computed by the HARPS-N DRS in the case of slow-rotating solar-like stars. This may also help to recover the stellar inclination i, which in turn affects the exoplanets' parameters. We selected stars with an inclination of the spin axis compatible with 90 deg by looking at exoplanetary transiting systems with known small sky-projected obliquity: for these stars, we can presume that vsini is equal to stellar equatorial velocity veq. We derived their rotational periods from photometric time-series and their radii from SED fitting. This allowed us to recover their veq, which we could compare to the FWHM values of the CCFs obtained both with G2 and K5 spectral type masks. We obtained an empirical relation for each mask, useful for slow rotators (FWHM < 20 km/s). We applied them to 273 exoplanet-host stars observed with HARPS-N, obtaining homogeneous vsini measurements. We compared our results with the literature ones to confirm the reliability of our work, and we found a good agreement with the values found with more sophisticated methods for stars with log g > 3.5. We also tried our relations on HARPS and SOPHIE data, and we conclude that they can be used also on FWHM derived by HARPS DRS with G2 and K5 mask, and they may be adapted to the SOPHIE data as long as the spectra are taken in the high-resolution mode. We were also able to recover or constrain i for 12 objects with no prior vsini estimation., Comment: 15 pages, 16 figures, long table missing in arXiV version, accepted for publication in A\&A

Published
2023
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17. The GAPS programme at TNG. XLVI. Deep search for low-mass planets in late-dwarf systems hosting cold Jupiters

Author

Pinamonti, M., Barbato, D., Sozzetti, A., Affer, L., Benatti, S., Biazzo, K., Bignamini, A., Borsa, F., Damasso, M., Desidera, S., Lanza, A. F., Maldonado, J., Mancini, L., Naponiello, L., Nardiello, D., Rainer, M., Cabona, L., Knapic, C., Andreuzzi, G., Cosentino, R., Fiorenzano, A., Ghedina, A., Harutyunyan, A., Lorenzi, V., Pedani, M., Claudi, R., Covino, E., Maggio, A., Micela, G., Molinari, E., Pagano, I., Piotto, G., and Poretti, E.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We present the results of a high-cadence and high-precision radial velocity (RV) monitoring of 3 late-type dwarf stars hosting long-period giants with well-measured orbits, in order to search for short-period sub-Neptunes (SN, $M \sin i < 30$ M$_\oplus$). Building on the results and expertise of our previous studies, we carry out combined fits of our HARPS-N data with literature RVs, using MCMC analyses and Gaussian Process regression. We then use the results of our survey to estimate the frequency of sub-Neptunes in systems hosting cold-Jupiters, $f(SN|CJ)$, and compare it with the frequency around field M-dwarfs, $f(SN)$. We identify a new short-period low-mass planet orbiting GJ 328, GJ 328\,c, with $P_c = 241.8^{+1.3}_{-1.7}$ d and $M_c \sin i = 21.4^{+ 3.4}_{- 3.2}$ M$_\oplus$. We moreover identify and model the chromospheric activity signals and rotation periods of GJ 649 and GJ 849, around which no additional planet is found. Then, taking into account also planetary system around the previosuly-analyzed low-mass star BD-11 4672, we derive an estimate of the frequencies of inner planets in such systems. In particular $f(SN|CJ) = 0.25^{+0.58}_{-0.07}$ for mini-Neptunes ($10$ M$_\oplus < M \sin i < 30$ M$_\oplus$, $P < 150$ d), marginally larger than $f(SN)$. For lower-mass planets ($M \sin i < 10$ M$_\oplus$) instead $f(SN|CJ) <0.69$, compatible with $f(SN)$. In light of the newly detected mini-Neptune, we find tentative evidence of a positive correlation between the presence of those planets and that of inner low-mass planets, $f(SN|CJ) > f(SN)$. This might indicate that cold Jupiters have an opposite influence in the formation of inner sub-Neptunes around late-type dwarfs as opposed to their solar-type counterparts, boosting the formation of mini-Neptunes instead of impeding it., Comment: 21 pages, 17 figures, 8 table. Accepted by A&A

Published
2023
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18. XUV emission of the young planet-hosting star V1298\,Tau from coordinated observations with XMM-Newton and HST

Author

Maggio, A., Pillitteri, I., Argiroffi, C., Benatti, S., Sanz-Forcada, J., D'Orazi, V., Biazzo, K., Borsa, F., Cabona, L., Claudi, R., Desidera, S., Locci, D., Nardiello, D., Mancini, L., Micela, G., Rainer, M., Spinelli, R., Bignamini, A., and Damasso, M.

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Atmospheric mass loss plays a major role in the evolution of exoplanets. This process is driven by the stellar high-energy irradiation, especially in the first hundreds of millions of years after dissipation of the proto-planetary disk. A major source of uncertainty in modeling atmospheric photo-evaporation and photo-chemistry is due to the lack of direct measurements of the stellar flux at EUV wavelengths. Several empirical relationships have been proposed in the past to link EUV fluxes to emission levels in X-rays, but stellar samples employed for this aim are heterogeneous, and available scaling laws provide significantly different predictions, especially for very active stars. We present new UV and X-ray observations of V1298 Tau with HST/COS and XMM-Newton, aimed to determine more accurately the XUV emission of this solar-mass pre-Main Sequence star, which hosts four exoplanets. Spectroscopic data were employed to derive the plasma emission measure distribution vs.\ temperature, from the chromosphere to the corona, and the possible variability of this irradiation on short and year-long time scales, due to magnetic activity. As a side result, we have also measured the chemical abundances of several elements in the outer atmosphere of V1298 Tau. We employ our results as a new benchmark point for the calibration of the X-ray to EUV scaling laws, and hence to predict the time evolution of the irradiation in the EUV band, and its effect on the evaporation of exo-atmospheres., Comment: 17 pages, 14 figures. Accepted for pubblication on ApJ

Published
2023
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19. Progress on the simulation tools for the SOXS spectrograph: Exposure time calculator and End-to-End simulator

Author

Genoni, M., Scaudo, A., Causi, G. Li, Cabona, L., Landoni, M., Campana, S., Schipani, P., Claudi, R., Aliverti, M., Baruffolo, A., Ben-Ami, S., Biondi, F., Capasso, G., Cosentino, R., D'Alessio, F., D'Avanzo, P., Hershko, O., Kuncarayakti, H., Munari, M., Pignata, G., Rubin, A., Scuderi, S., Vitali, F., Young, D., Achren, J., Araiza-Duranq, J. A., Arcavi, I., Battaini, F., Brucalassi, A., Bruch, R., Cappellaro, E., Colapietro, M., Della Valle, M., De Pascale, M., Di Benedetto, R., D'Orsi, S., Gal-Yam, A., Hernandez, M., Kotilainen, J., Marty, L., Mattila, S., Rappaport, M., Ricci, D., Riva, M., Salasnich, B., Smartt, S., Sanchez, R. Zanmar, Stritzinger, M., and Ventura, H.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

We present the progresses of the simulation tools, the Exposure Time Calculator (ETC) and End-to-End simulator (E2E), for the Son Of X-Shooter (SOXS) instrument at the ESO-NTT 3.58-meter telescope. The SOXS will be a single object spectroscopic facility, made by a two-arms high-efficiency spectrograph, able to cover the spectral range 350-2000 nanometer with a mean resolving power R$\approx$4500. While the purpose of the ETC is the estimate, to the best possible accuracy, of the Signal-to-Noise ratio (SNR), the E2E model allows us to simulate the propagation of photons, starting from the scientific target of interest, up to the detectors. We detail the ETC and E2E architectures, computational models and functionalities. The interface of the E2E with external simulation modules and with the pipeline are described, too. Synthetic spectral formats, related to different seeing and observing conditions, and calibration frames to be ingested by the pipeline are also presented., Comment: Accepted for publication in SPIE Astronomical Telescopes and Instrumentation conference proceedings (Montreal, Canada July 2022)

Published
2022

20. The ultra-hot-Jupiter KELT-16 b: Dynamical Evolution and Atmospheric Properties

Author

Mancini, L., Southworth, J., Naponiello, L., Basturk, O., Barbato, D., Biagiotti, F., Bruni, I., Cabona, L., D'Ago, G., Damasso, M., Erdem, A., Evans, D., Henning, Th., Ozturk, O., Ricci, D., Sozzetti, A., Tregloan-Reed, J., and Yalcinkayaz, S.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We present broad-band photometry of 30 planetary transits of the ultra-hot Jupiter KELT-16b, using five medium-class telescopes. The transits were monitored through standard B, V, R, I filters and four were simultaneously observed from different places, for a total of 36 new light curves. We used these new photometric data and those from the TESS space telescope to review the main physical properties of the KELT-16 planetary system. Our results agree with previous measurements but are more precise. We estimated the mid-transit times for each of these transits and combined them with others from the literature to obtain 69 epochs, with a time baseline extending over more than four years, and searched for transit time variations. We found no evidence for a period change, suggesting a lower limit for orbital decay at 8 Myr, with a lower limit on the reduced tidal quality factor of $Q^{\prime}_{\star}>(1.9 \pm 0.8) \times 10^5$ with $95\%$ confidence. We built up an observational, low-resolution transmission spectrum of the planet, finding evidence of the presence of optical absorbers, although with a low significance. Using TESS data, we reconstructed the phase curve finding that KELT-16b has a phase offset of $25.25 \pm 14.03$ $^{\circ}$E, a day- and night-side brightness temperature of $3190 \pm 61$ K and $2668 \pm 56$ K, respectively. Finally, we compared the flux ratio of the planet over its star at the TESS and Spitzer wavelengths with theoretical emission spectra, finding evidence of a temperature inversion in the planet's atmosphere, the chemical composition of which is preferably oxygen-rich rather than carbon-rich., Comment: 17 pages, 16 figures, Accepted for publication in Monthly Notices of the Royal Astronomical Society

Published
2021
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21. Technical and software upgrades completed and planned at OARPAF

Author

Ricci, D., Cabona, L., La Camera, A., Righi, C., Nicolosi, F., and Tosi, S.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

We present technical, instrumental, and software upgrades completed and planned at astronomical observatory called "Osservatorio Astronomico Regionale Parco Antola, Fascia" (OARPAF), hosting an 80cm, alt-az Cassegrain-Nasmyth telescope. The observatory, located in the Ligurian Apennines, can currently be operated either for scientific (photometry camera) or amateur (ocular) observations, by switching the tertiary mirror between the two Nasmyth foci using a manual handle. The main scientific observational topics are related up to now to exoplanetary transits, QSOs, and gravitationally lensed quasars, and results are being recently published. A remotization and robotization strategy of the entire structure (telescope, dome, instruments, sensors and monitoring) have been set up and it is in progress. We report the current upgrades, mainly related for what concerns the "hardware" side to the robotization of the dome. On the instrumentation side, a new modular support for instruments with spectrophotometric capabilities is on a preliminary design phase, improving the telescope performances and broadening the potential science fields. In this framework, the procurement of spectrophotometric material has started. On the software side, an innovative web-based software relying on websockets and node.js can already be used to control the camera, and it will be extended to manage the other components of the instrument, of the observatory, and of the image database storage., Comment: 5 pages, 4 figures. To appear in "Sixth Workshop on robotic autonomous observatories (2020)", RevMexAA(SC)

Published
2020
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22. The GAPS Programme at TNG: LIX. Characterisation study of the ∼300 Myr-old multi-planetary system orbiting the star BD+40 2790 (TOI-2076).

Author

Damasso, M., Locci, D., Benatti, S., Maggio, A., Baratella, M., Desidera, S., Biazzo, K., Palle, E., Wang, S., Nardiello, D., Borsato, L., Bonomo, A. S., Messina, S., Nowak, G., Goyal, A., Béjar, V. J. S., Bignamini, A., Cabona, L., Carleo, I., and Claudi, R.

Abstract

Context. The long-term Global Architecture of Planetary Systems (GAPS) programme has been characterising a sample of young systems with transiting planets via spectroscopic and photometric follow-up observations. One of the main goals of GAPS is measuring planets' dynamical masses and bulk densities to help build a picture of how planets evolve in the early stages of their formation via a comparison between the fundamental physical properties of young and mature exoplanets. Aims. We collected more than 300 high-resolution spectra of the ∼300 Myr old star BD+40 2790 (TOI-2076) over about three years. This star hosts three transiting planets discovered by TESS, with orbital periods of ∼10, 21, and 35 days. From our determined fundamental planetary physical properties, we investigate the temporal evolution of the planetary atmospheres by calculating the expected mass loss rate due to photo-evaporation up to a system age of 5 Gyr. Methods. BD+40 2790 shows an activity-induced scatter larger than 30 m s−1 in the radial velocities. We employed different methods to measure the stellar radial velocities, along with several models to filter out the dominant stellar activity signal to bring to light the planet-induced signals, which are expected to have semi-amplitudes that are lower by one order of magnitude. We evaluated the mass loss rate of the planetary atmospheres using photo-ionisation hydrodynamic modeling, accounting for the temporal evolution of the stellar high-energy flux through the adoption of different models for X-rays and EUV irradiation. Results. The dynamical analysis confirms that the three sub-Neptune-sized companions (with our radius measurements of Rb = 2.54±0.04, Rc = 3.35±0.05, and Rd = 3.29±0.06 R) have masses that situate them in the planetary regime. We derived 3σ upper limits below or close to the mass of Neptune for all the planets in our sample: 11–12, 12–13.5, and 14–19 Mfor planets b, c, and d, respectively. In the case of planet d, we found promising clues that the mass could be between ∼7 and 8 M, with a significance level between 2.3–2.5σ (at best). This result must be further investigated using other analysis methods and techniques or using high-precision near-infrared (nIR) spectrographs to collect new radial velocities, which could be less affected by stellar activity. Atmospheric photoevaporation simulations predict that BD+40 2790 b is currently losing its H-He gaseous envelope and that it will be completely lost at an age within 0.5–3 Gyr if its current mass is lower than 12M. Furthermore, BD+40 2790 c could have a lower bulk density than b and might be able to retain its atmosphere up to an age of 5 Gyr. For the outermost object, planet d, we predicted an almost negligible evolution of its mass and radius, induced by photo-evaporation. [ABSTRACT FROM AUTHOR]

Published
2024
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23. The GAPS programme at TNG. LVII. TOI-5076b: A warm sub-Neptune planet orbiting a thin-to-thick-disk transition star in a wide binary system

Author

Montalto, M., primary, Greco, N., additional, Biazzo, K., additional, Desidera, S., additional, Andreuzzi, G., additional, Bieryla, A., additional, Bignamini, A., additional, Bonomo, A.S., additional, Briceno, C., additional, Cabona, L., additional, Cosentino, R., additional, Damasso, M., additional, Fiorenzano, A., additional, Fong, W., additional, Goeke, B., additional, Hesse, K.M., additional, Kostov, V.B., additional, Lanza, A.F., additional, Latham, D.W., additional, Law, N., additional, Mancini, L., additional, Maggio, A., additional, Molinaro, M., additional, Mann, A.W., additional, Mantovan, G., additional, Naponiello, L., additional, Nardiello, D., additional, Nascimbeni, V., additional, Pagano, I., additional, Pedani, M., additional, Safonov, B.S., additional, Scandariato, G., additional, Seager, S., additional, Singh, V., additional, Sozzetti, A., additional, Strakhov, I.A., additional, Winn, J.N., additional, Ziegler, C., additional, and Zingales, T., additional

Published
2024
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24. The GAPS Programme at TNG. LV. Multiple molecular species in the atmosphere of HAT-P-11 b and review of the HAT-P-11 planetary system

Author

Basilicata, M., primary, Giacobbe, P., additional, Bonomo, A.S., additional, Scandariato, G., additional, Brogi, M., additional, Singh, V., additional, Di Paola, A., additional, Mancini, L., additional, Sozzetti, A., additional, Lanza, A.F., additional, Cubillos, P.E., additional, Damasso, M., additional, Desidera, S., additional, Biazzo, K., additional, Bignamini, A., additional, Borsa, F., additional, Cabona, L., additional, Carleo, I., additional, Ghedina, A., additional, Guilluy, G., additional, Maggio, A., additional, Mainella, G., additional, Micela, G., additional, Molinari, E., additional, Molinaro, M., additional, Nardiello, D., additional, Pedani, M., additional, Pino, L., additional, Poretti, E., additional, Southworth, J., additional, Stangret, M., additional, and Turrini, D., additional

Published
2024
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25. The GAPS programme at TNG

Author

Di Maio, C., primary, Petralia, A., additional, Micela, G., additional, Lanza, A. F., additional, Rainer, M., additional, Malavolta, L., additional, Benatti, S., additional, Affer, L., additional, Maldonado, J., additional, Colombo, S., additional, Damasso, M., additional, Maggio, A., additional, Biazzo, K., additional, Bignamini, A., additional, Borsa, F., additional, Boschin, W., additional, Cabona, L., additional, Cecconi, M., additional, Claudi, R., additional, Covino, E., additional, Di Fabrizio, L., additional, Gratton, R., additional, Lorenzi, V., additional, Mancini, L., additional, Messina, S., additional, Molinari, E., additional, Molinaro, M., additional, Nardiello, D., additional, Poretti, E., additional, and Sozzetti, A., additional

Published
2024
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27. The GAPS programme at TNG

Author

Carleo, I., primary, Malavolta, L., additional, Desidera, S., additional, Nardiello, D., additional, Wang, S., additional, Turrini, D., additional, Lanza, A. F., additional, Baratella, M., additional, Marzari, F., additional, Benatti, S., additional, Biazzo, K., additional, Bieryla, A., additional, Brahm, R., additional, Bonavita, M., additional, Collins, K. A., additional, Hellier, C., additional, Locci, D., additional, Hobson, M. J., additional, Maggio, A., additional, Mantovan, G., additional, Messina, S., additional, Pinamonti, M., additional, Rodriguez, J. E., additional, Sozzetti, A., additional, Stassun, K., additional, Wang, X. Y., additional, Ziegler, C., additional, Damasso, M., additional, Giacobbe, P., additional, Murgas, F., additional, Parviainen, H., additional, Andreuzzi, G., additional, Barkaoui, K., additional, Berlind, P., additional, Bignamini, A., additional, Borsa, F., additional, Briceño, C., additional, Brogi, M., additional, Cabona, L., additional, Calkins, M. L., additional, Capuzzo-Dolcetta, R., additional, Cecconi, M., additional, Colon, K. D., additional, Cosentino, R., additional, Dragomir, D., additional, Esquerdo, G. A., additional, Henning, T., additional, Ghedina, A., additional, Goeke, R. F., additional, Gratton, R., additional, Horta, F. Grau, additional, Gupta, A. F., additional, Jenkins, J. M., additional, Jordán, A., additional, Knapic, C., additional, Latham, D. W., additional, Mireles, I., additional, Law, N., additional, Lorenzi, V., additional, Lund, M. B., additional, Maldonado, J., additional, Mann, A. W., additional, Molinari, E., additional, Pallé, E., additional, Paegert, M., additional, Pedani, M., additional, Quinn, S. N., additional, Scandariato, G., additional, Seager, S., additional, Winn, J. N., additional, Wohler, B., additional, and Zingales, T., additional

Published
2024
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28. The GAPS Programme at TNG

Author

Claudi, R., primary, Bruno, G., additional, Fossati, L., additional, Lanza, A. F., additional, Maggio, A., additional, Micela, G., additional, Maldonado, J., additional, Benatti, S., additional, Biazzo, K., additional, Bignamini, A., additional, Cabona, L., additional, Carleo, I., additional, Danielski, C., additional, Desidera, S., additional, Malavolta, L., additional, Mancini, L., additional, Montalto, M., additional, Nardiello, D., additional, Rainer, M., additional, Scandariato, G., additional, Sozzetti, A., additional, Cosentino, R., additional, Covino, E., additional, Di Fabrizio, L., additional, Ghedina, A., additional, Lorenzi, V., additional, Molinari, E., additional, Molinaro, M., additional, Pagano, I., additional, Piotto, G., additional, and Poretti, E., additional

Published
2024
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29. The GAPS programme at TNG

Author

Mantovan, G., primary, Malavolta, L., additional, Desidera, S., additional, Zingales, T., additional, Borsato, L., additional, Piotto, G., additional, Maggio, A., additional, Locci, D., additional, Polychroni, D., additional, Turrini, D., additional, Baratella, M., additional, Biazzo, K., additional, Nardiello, D., additional, Stassun, K., additional, Nascimbeni, V., additional, Benatti, S., additional, Anna John, A., additional, Watkins, C., additional, Bieryla, A., additional, Lissauer, J. J., additional, Twicken, J. D., additional, Lanza, A. F., additional, Winn, J. N., additional, Messina, S., additional, Montalto, M., additional, Sozzetti, A., additional, Boffin, H., additional, Cheryasov, D., additional, Strakhov, I., additional, Murgas, F., additional, D’Arpa, M., additional, Barkaoui, K., additional, Benni, P., additional, Bignamini, A., additional, Bonomo, A. S., additional, Borsa, F., additional, Cabona, L., additional, Cameron, A. C., additional, Claudi, R., additional, Cochran, W., additional, Collins, K. A., additional, Damasso, M., additional, Dong, J., additional, Endl, M., additional, Fukui, A., additional, Fűrész, G., additional, Gandolfi, D., additional, Ghedina, A., additional, Jenkins, J., additional, Kabáth, P., additional, Latham, D. W., additional, Lorenzi, V., additional, Luque, R., additional, Maldonado, J., additional, McLeod, K., additional, Molinaro, M., additional, Narita, N., additional, Nowak, G., additional, Orell-Miquel, J., additional, Pallé, E., additional, Parviainen, H., additional, Pedani, M., additional, Quinn, S. N., additional, Relles, H., additional, Rowden, P., additional, Scandariato, G., additional, Schwarz, R., additional, Seager, S., additional, Shporer, A., additional, Vanderburg, A., additional, and Wilson, T. G., additional

Published
2024
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30. Photometric follow-up of the 20 Myr old multi-planet host star V1298 Tau with CHEOPS and ground-based telescopes

Author

Damasso, M., primary, Scandariato, G., additional, Nascimbeni, V., additional, Nardiello, D., additional, Mancini, L., additional, Marino, G., additional, Bruno, G., additional, Brandeker, A., additional, Leto, G., additional, Marzari, F., additional, Lanza, A. F., additional, Benatti, S., additional, Desidera, S., additional, Béjar, V. J. S., additional, Biagini, A., additional, Borsato, L., additional, Cabona, L., additional, Claudi, R., additional, Lodieu, N., additional, Maggio, A., additional, Mallorquín, M., additional, Messina, S., additional, Micela, G., additional, Ricci, D., additional, Sozzetti, A., additional, Suárez Mascareño, A., additional, Turrini, D., additional, and Zapatero Osorio, M. R., additional

Published
2023
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31. ANDES, the high-resolution spectrograph for the ELT: RIZ and UBV spectrographs’ preliminary design of the detector unit

Author

Holland, Andrew D., Minoglou, Kyriaki, Genolet, L., Aliverti, M., Balestra, A., Bellido, O., Brynnel, J., Cabona, L., Chazelas, B., Coretti, I., Di Marcantonio, P., Fuesslein, C., Ivanisenko, Y., Järvinen, A., Kaminski, A., Kern, J., Lanotte, A., Lovis, C., Marconi, A., Oliva, E., Pariani, G., Poppenhäger, K., Redaelli, E., Riva, M., Santos Diaz, P., Scalera, M., Sordet, M., Strassmeier, K., Weber, M., Weingrill, J., and Zanutta, A.

Published
2024
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33. ANDES, the high-resolution spectrograph for the ELT: RIZ & UBV spectrographs’ preliminary design, analysis, and integration of the vacuum vessel and thermal enclosure

Author

Bryant, Julia J., Motohara, Kentaro, Vernet, Joël R. D., Santos Diaz, P., Kern, J., Genolet, L., Chazelas, B., Hughes, I., Lanotte, A. A., Weber, M., Füßlein, C., Lovis, C., Dionies, F., Vega-Moreno, A., Peñate Castro, J., Calvo Ortega, Rocio, Varas Gonzalez, Roberto, Simoes, Roberto, Tenegi, F., Ivanisenko, Y., Brynnel, J., Weingrill, J., Sigwarth, M., Sordet, M., Bellido, O., Järvinen, A., Aliverti, M., Cabona, L., Coretti, I., Di Marcantonio, P., Marconi, A., Oliva, E., Pariani, G., Redaelli, E. M. A., Riva, M., and Zanutta, A.

Published
2024
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34. ANDES, the high-resolution spectrograph for the ELT: system architecture design of Phase-B-one

Author

Bryant, Julia J., Motohara, Kentaro, Vernet, Joël R. D., Zanutta, A., Manuel, A., Aliverti, M., Balestra, A., Bellido-Tirado, O., Brucalassi, A., Cabona, L., Cabral, A., Chazelas, B., Coretti, I., Di Marcantonio, P., Ebert, M., Gaessler, W., Gao, X., Geers, V., Giro, E., Gonzalez, O., Huke, P., Landoni, M., Laun, W., Lee, D., Lehmitz, M., Lunney, D., MacIntosh, M., Marconi, A., Monteiro, M., Montgomery, D., Oliva, E., Origlia, L., Pariani, G., Pinna, E., Redaelli, E. M. A., Riva, M., Rohloff, R.-R., Santos Diaz, P., Scalera, M., Seifert, W., Selmi, C., Tozzi, A., Waring, C., Weber, M., Wehbe, B., Weingrill, J., Xompero, M., and Xu, W.

Published
2024
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35. ANDES, the high-resolution spectrograph for the ELT: UBV spectrograph preliminary design

Author

Bryant, Julia J., Motohara, Kentaro, Vernet, Joël R. D., Weber, Michael, Woche, Manfred, Sablowski, Daniel, Strassmeier, Klaus G., Poppenhäger, Katja, Alvarado-Gómez, Julián David, Bauer, Svend-Marian, Bellido-Tirado, Olga, Brynnel, Joar, Dionies, Frank, Füßlein, Christine, Giannone, Domenico, Järvinen, Arto, Järvinen, Silva, Kern, Jonathan, Önel, Hakan, Schwab, Christian, Weingrill, Jörg, Roth, Markus, Sigwarth, Michael, Chazelas, Bruno, Lanotte, Audrey, Santos Diaz, Pablo, Genolet, Ludovic, Sordet, Michael, Hughes, Ian, Lovis, Christophe, Amate, Manuel, Peñate Castro, José, Vega-Moreno, Afrodisio, Luís Simoes, Roberto M., González-Hernández, Jonay I., Zapatero Osorio, María R., Amado, Pedro J., Calvo-Ortega, Rocío, Varas González, Roberto, Gaessler, Wolfgang, Lehmitz, Michael, Kaminski, Adrian, Stilz, Ingo, Zanutta, A., Di Marcantonio, P., Marconi, A., Scalera, M., Aliverti, M., Cabona, L., Pariani, G., Olivia, E., Coretti, I., and Redaelli, E. M. A.

Published
2024
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36. Walking with SOXS towards the transient sky

Author

Bryant, Julia J., Motohara, Kentaro, Vernet, Joël R. D., Schipani, P., Campana, S., Claudi, R., Aliverti, M., Baruffolo, A., Ben-Ami, S., Capasso, G., Colapietro, M., Cosentino, R., D'Alessio, F., D'Avanzo, P., Genoni, M., Hershko, O., Kuncarayakti, H., Landoni, M., Munari, M., Pignata, G., Radhakrishnan, K., Ricci, D., Rubin, A., Scuderi, S., Vitali, F., Young, D., Accardo, M., Achrén, J., Araiza-Durán, J. A., Arcavi, I., Asquini, L., Battaini, F., Bichkovsky, A., Brucalassi, A., Bruch, R., Cabona, L., Cappellaro, E., Della Valle, M., Di Filippo, S., Di Benedetto, R., D'Orsi, S., Gal-Yam, A., Hernandez, M., Ives, D., Kaeufl, H.-U., Kotilainen, J., Li Causi, G., Lessio, L., Marty, L., Mattila, S., Mehrgan, L., Pasquini, L., Pompei, E., Rappaport, M., Riva, M., Salasnich, B., Savarese, S., Saviane, I., Schöller, M., Silber, A., Smartt, S., Sanchez, R. Zanmar, Stritzinger, M., Sulich, A., and Ventura, H.

Published
2024
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37. The GAPS Programme at TNG

Author

Sozzetti, A., primary, Pinamonti, M., additional, Damasso, M., additional, Desidera, S., additional, Biazzo, K., additional, Bonomo, A. S., additional, Nardiello, D., additional, Gratton, R., additional, Lanza, A. F., additional, Malavolta, L., additional, Giacobbe, P., additional, Affer, L., additional, Bignamini, A., additional, Borsa, F., additional, Boschin, W., additional, Brogi, M., additional, Cabona, L., additional, Claudi, R., additional, Covino, E., additional, Di Fabrizio, L., additional, Ghedina, A., additional, Harutyunyan, A., additional, Knapic, C., additional, Maldonado, J., additional, Maggio, A., additional, Mancini, L., additional, Mantovan, G., additional, Marzari, F., additional, Messina, S., additional, Micela, G., additional, Molinari, E., additional, Montalto, M., additional, Naponiello, L., additional, Pagano, I., additional, Pedani, M., additional, Piotto, G., additional, Poretti, E., additional, Scandariato, G., additional, Silvotti, R., additional, and Turrini, D., additional

Published
2023
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39. The GAPS programme at TNG

Author

Rainer, M., primary, Desidera, S., additional, Borsa, F., additional, Barbato, D., additional, Biazzo, K., additional, Bonomo, A., additional, Gratton, R., additional, Messina, S., additional, Scandariato, G., additional, Affer, L., additional, Benatti, S., additional, Carleo, I., additional, Cabona, L., additional, Covino, E., additional, Lanza, A. F., additional, Ligi, R., additional, Maldonado, J., additional, Mancini, L., additional, Nardiello, D., additional, Sicilia, D., additional, Sozzetti, A., additional, Bignamini, A., additional, Cosentino, R., additional, Knapic, C., additional, Martínez Fiorenzano, A. F., additional, Molinari, E., additional, Pedani, M., additional, and Poretti, E., additional

Published
2023
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40. X-Ray and Ultraviolet Emission of the Young Planet-hosting Star V1298 Tau from Coordinated Observations with XMM-Newton and Hubble Space Telescope

Author

Maggio, A., primary, Pillitteri, I., additional, Argiroffi, C., additional, Benatti, S., additional, Sanz-Forcada, J., additional, D’Orazi, V., additional, Biazzo, K., additional, Borsa, F., additional, Cabona, L., additional, Claudi, R., additional, Desidera, S., additional, Locci, D., additional, Nardiello, D., additional, Mancini, L., additional, Micela, G., additional, Rainer, M., additional, Spinelli, R., additional, Bignamini, A., additional, and Damasso, M., additional

Published
2023
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41. The ultra-hot-Jupiter KELT-16 b: dynamical evolution and atmospheric properties

Author

Mancini, L, primary, Southworth, J, additional, Naponiello, L, additional, Baştürk, Ö, additional, Barbato, D, additional, Biagiotti, F, additional, Bruni, I, additional, Cabona, L, additional, D’Ago, G, additional, Damasso, M, additional, Erdem, A, additional, Evans, D, additional, Henning, Th, additional, Öztürk, O, additional, Ricci, D, additional, Sozzetti, A, additional, Tregloan-Reed, J, additional, and Yalçınkaya, S, additional

Published
2021
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44. End-to-end simulation framework for astronomical spectrographs: SOXS, CUBES, and ANDES

Author

Egner, Sébastien E., Roberts, Scott, Scaudo, A., Genoni, M., Li Causi, G., Cabona, L., Landoni, M., Campana, S., Schipani, P., Claudi, R., Aliverti, M., Baruffolo, A., Ben-Ami, S., Biondi, F., Capasso, G., Cosentino, R., D'Alessio, F., D'Avanzo, P., Hershko, O., Kuncarayakti, H., Munari, M., Radhakrishnan Santhakumari, K., Pignata, G., Rubin, A., Scuderi, S., Vitali, F., Young, D., Achrén, J., Araiza-Duran, J. A., Arcavi, I., Battaini, F., Brucalassi, A., Bruch, R., Cappellaro, E., Colapietro, M., Della Valle, M., De Pascale, M., Di Benedetto, R., D'Orsi, S., Gal-Yam, A., Hernandez, M., Kotilainen, J., Marty, L., Mattila, S., Rappaport, M., Ricci, D., Riva, M., Salasnich, B., Smartt, S., Zanmar Sanchez, R., Stritzinger, M., Ventura, H., Cupani, G., Porru, M., Franchini, M., Cirami, R., Calderone, G., Covino, S., Smiljanic, R., Monteiro, M., Balestra, A., Sordo, R., Mason, E., Rousseau, S., de Castro Leão, I., Zanutta, A., de Meideros Martins, A., Sosnowska, D., Marquart, T., Boisse, I., Sousa, S., Hernandez, J., Piskunov, N., Puschnig, J., Sanna, N., Martins, B., Di Marcantonio, P., and Marconi, A.

Published
2024
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45. ultra-hot-Jupiter KELT-16 b: dynamical evolution and atmospheric properties.

Author

Mancini, L, Southworth, J, Naponiello, L, Baştürk, Ö, Barbato, D, Biagiotti, F, Bruni, I, Cabona, L, D'Ago, G, Damasso, M, Erdem, A, Evans, D, Henning, Th, Öztürk, O, Ricci, D, Sozzetti, A, Tregloan-Reed, J, and Yalçınkaya, S

Subjects
TEMPERATURE inversions, PLANETARY atmospheres, PLANETARY systems, SPACE telescopes, QUALITY factor, PHOTOMETRY, LIGHT curves
Abstract

We present broad-band photometry of 30 planetary transits of the ultra-hot-Jupiter KELT-16 b, using five medium-class telescopes. The transits were monitored through standard |$B,\, V,\, R,\, I$| filters and four were simultaneously observed from different places, for a total of 36 new light curves. We used these new photometric data and those from the TESS space telescope to review the main physical properties of the KELT-16 planetary system. Our results agree with previous measurements but are more precise. We estimated the mid-transit times for each of these transits and combined them with others from the literature to obtain 69 epochs, with a time baseline extending over more than 4 yr, and searched for transit time variations. We found no evidence for a period change, suggesting a lower limit for orbital decay at 8 Myr, with a lower limit on the reduced tidal quality factor of |$Q^{\prime }_{\star }\gt (1.9 \pm 0.8) \times 10^5$| with |$95{{\ \rm per\ cent}}$| confidence. We built up an observational, low-resolution transmission spectrum of the planet, finding evidence of the presence of optical absorbers, although with a low significance. Using TESS data, we reconstructed the phase curve finding that KELT-16 b has a phase offset of 25.25 ± 14.03 °E, a day- and night-side brightness temperature of 3190 ± 61 K and 2668 ± 56 K, respectively. Finally, we compared the flux ratio of the planet over its star at the TESS and Spitzer wavelengths with theoretical emission spectra, finding evidence of a temperature inversion in the planet's atmosphere, the chemical composition of which is preferably oxygen-rich rather than carbon-rich. [ABSTRACT FROM AUTHOR]

Published
2022
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47. Progress on the simulation tools for the SOXS spectrograph: exposure time calculator and end-to-end simulator

Author

Angeli, George Z., Dierickx, Philippe, Genoni, M., Scaudo, A., Li Causi, G., Cabona, L., Landoni, M., Campana, S., Schipani, P., Claudi, R., Aliverti, M., Baruffolo, A., Ben-Ami, S., Biondi, F., Capasso, G., Cosentino, R., D'Alessio, F., D'Avanzo, P., Hershko, O., Kuncarayakti, H., Munari, M., Pignata, G., Radhakrishnan, K., Rubin, A., Scuderi, S., Vitali, F., Young, D., Achrén, J., Araiza-Duran, J. A., Arcavi, I., Battaini, F., Brucalassi, A., Bruch, R., Cappellaro, E., Colapietro, M., Della Valle, M., De Pascale, M., Di Benedetto, R., D'Orsi, S., Gal-Yam, A., Hernandez, M., Kotilainen, J., Marty, L., Mattila, S., Rappaport, M., Ricci, D., Riva, M., Salasnich, B., Smartt, S., Zanmar Sanchez, R., Stritzinger, M., and Ventura, H.

Published
2022
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48. The commissioning of the Low-Cost NIR Extended Solar Telescope (LOCNES)

Author

Marshall, Heather K., Spyromilio, Jason, Usuda, Tomonori, Claudi, R., Cabona, L., Ghedina, A., Harutyunyan, A., Liu, J. S., Pace, E., Stefani, S., Tozzi, A., Carleo, I., Di Fabrizio, L., D'Orazi, V., Gonzalez, M., Guerra Padilla, V., Lanza, A. F., Lodi, M., Micela, G., Pérez Ventura, H., Piccioni, G., Rainer, M., Riverol Rodríguez, A. L., and San Juan Gómez, J.

Published
2024
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