Article
Astronomy & Astrophysics
M. Lietzow, S. Wolf
Summary: This study investigates the effect of circumplanetary rings made up of spherical micrometer-sized particles on the polarization of light from extrasolar gas giants. Using the Monte Carlo radiative transfer code POLARIS, the researchers studied the impact of various parameters such as ring radius, inclination, and particle composition on the scattered polarization. They found that the dust particles in the ring exhibit strong forward scattering, leading to an increase in scattered and polarized flux at larger phase angles.
ASTRONOMY & ASTROPHYSICS
(2023)
Article
Astronomy & Astrophysics
Kevin T. Hayakawa, Bradley M. S. Hansen
Summary: Irregular satellites of the Solar system have undergone collisional evolution, resulting in the formation of dusty collisional debris. This paper examines the debris discs produced by extrasolar analogues of this process and finds that they can reproduce the observed radial distribution of dust in narrow dust rings. The formation of circumstellar dust rings is driven by radiation pressure, which liberates dust grains from the planetary Hill sphere.
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
(2023)
Review
Environmental Sciences
William Pluriel
Summary: Hot giant exoplanets, unique in the Solar System, provide the opportunity to study atmospheric behavior under extreme conditions. Due to their 3D nature, in contrast to the common 1D assumption, their thermal and chemical day-night dichotomies and extreme wind dynamics require adapted models for self-consistent and accurate analysis of transit, eclipse, and phase curve observations. The synergy between models and observations is emphasized in order to characterize atmospheres using data from new generation instruments.
Article
Astronomy & Astrophysics
James S. D. Blake, Leigh N. Fletcher, Thomas K. Greathouse, Glenn S. Orton, Henrik Melin, Mike T. Roman, Arrate Antunano, Padraig T. Donnelly, Naomi Rowe-Gurney, Oliver King
Summary: The abundance of deuterium in giant planet atmospheres provides constraints on the reservoirs of ices incorporated into these worlds during their formation and evolution. New ground-based measurements of the D/H ratio in methane for Saturn show agreement with previous observations, confirming unexpectedly low CH3D abundance.
ASTRONOMY & ASTROPHYSICS
(2021)
Article
Astronomy & Astrophysics
Oscar Carrion-Gonzalez, Raphael Moreno, Emmanuel Lellouch, Thibault Cavalie, Sandrine Guerlet, Gwenael Milcareck, Aymeric Spiga, Noe Clement, Jeremy Leconte
Summary: This study aims to directly measure wind speeds in Neptune's stratosphere using ALMA Doppler spectroscopy. The results show that the measured wind speeds at different pressure levels are weaker compared to previous observations. These are the first direct Doppler wind measurements performed on the Icy Giants, providing a new method for the study and monitoring of their stratospheric dynamics.
ASTRONOMY & ASTROPHYSICS
(2023)
Article
Astronomy & Astrophysics
O. Carrion-Gonzalez, A. Garcia Munoz, N. C. Santos, J. Cabrera, Sz. Csizmadia, H. Rauer
Summary: Observing exoplanets at multiple phase angles is crucial for characterizing their atmospheres and planet sizes. Single-phase observations are unable to determine the presence of clouds in the atmosphere, but combining small and large phase angles can break parameter degeneracies and provide more accurate results. The shape of the scattering phase function of cloud aerosols plays a key role in the improvement of multi-phase retrievals.
ASTRONOMY & ASTROPHYSICS
(2021)
Article
Astronomy & Astrophysics
Matthaus Schulik, Richard A. Booth
Summary: We present a new 1D multiphysics simulation code for hydrodynamic escape problems and planetary accretion models. The code treats multiple species as separate hydrodynamic fields, couples them via friction laws, and allows for multiband flux-limited radiation transport. The code demonstrates correct physical behavior and offers new applications for exploring advanced planetary evolution schemes.
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
(2023)
Article
Astronomy & Astrophysics
Pavol Gajdos, Martin Vanko
Summary: In this paper, we conducted an initial study on the dynamics and stability of 178 multiplanetary systems listed in the NASA Exoplanet Archive. The Mean Exponential Growth factor of Nearby Orbits (MEGNO) indicator was used to distinguish between chaotic and regular systems. Nearly three-quarters of the systems were found to be long-term stable, while only 45 exhibited chaotic behavior. We investigated the influence of the number of planets and their parameters on system stability, and compared the effectiveness of MEGNO indicator and machine-learning algorithm SPOCK.
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
(2023)
Article
Astronomy & Astrophysics
J. W. Skinner, J. Y-K Cho
Summary: The study indicates that modons play a major role in the atmospheres of tidally synchronized extrasolar planets, altering flows and leading to recognizable weather patterns. On synchronized planets, large modons reach planetary-scale and exhibit quasi-periodic life-cycles.
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
(2022)
Article
Astronomy & Astrophysics
Joost P. Wardenier, Vivien Parmentier, Michael R. Line, Elspeth K. H. Lee
Summary: Ultra-hot Jupiters have complex atmospheres with strong spatial variations in temperature, chemistry, dynamics, cloud coverage, and scale height, making it challenging to interpret high-resolution transmission spectra. In this work, we model the cross-correlation signal of five chemical species on WASP-76b and find that the phase-dependent Doppler shift of absorption lines is influenced by planetary rotation and the unique 3D spatial distribution of chemical species. The observation of multiple species' absorption signals is crucial for understanding the 3D thermochemical structure and dynamics of ultra-hot Jupiters.
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
(2023)
Article
Astronomy & Astrophysics
Pascal A. Noti, Elspeth K. H. Lee, Russell Deitrick, Mark Hammond
Summary: This study compares simulations of the atmospheres of hot Jupiter exoplanets using different dynamical equation sets in global circulation models (GCMs). The results show significant differences between simulations with different equation sets under certain conditions. The study highlights the importance of selecting the appropriate equation set based on system and planetary properties and shows the divergent behavior of approximations used in GCMs for non Earth-like planets.
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
(2023)
Article
Astronomy & Astrophysics
Felix Sainsbury-Martinez, Pascal Tremblin, Aaron David Schneider, Ludmila Carone, Isabelle Baraffe, Gilles Chabrier, Christiane Helling, Leen Decin, Uffe Grae Jorgensen
Summary: Additional analysis of WASP-76b and related models reveals significant vertical enthalpy transport, causing radius inflation and explaining the discrepancy between observed hot Jupiters and standard models. This highlights the importance of considering the vertical advection of potential temperature in explaining the radius inflation of exoplanets.
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
(2023)
Article
Astronomy & Astrophysics
G. Mahapatra, F. Abiad, L. Rossi, D. M. Stam
Summary: It is possible to distinguish between terrestrial exoplanets in different evolutionary phases by analyzing the polarization characteristics of the reflected starlight. However, current polarimeters are unable to discern the evolutionary phases of spatially unresolved terrestrial exoplanets.
ASTRONOMY & ASTROPHYSICS
(2023)
Article
Astronomy & Astrophysics
Tiago F. L. L. Pinheiro, Rafael Sfair
Summary: The young star PDS110 in the Ori OB1a association experienced two similar eclipses in 2008 and 2011, possibly caused by an unseen giant planet with a ring system. Through numerical simulations, the mass, eccentricity, size, and inclination of this planet's ring were constrained, ruling out configurations that did not match observations. The preferred solution suggests the ring has an inclination of less than 60 degrees, a radius between 0.1 and 0.2 au, with the planet being more massive than 35 M-Jup and having a low eccentricity (<0.05).
ASTRONOMY & ASTROPHYSICS
(2021)
Article
Optics
Yuexin Zou, Hong Pan, Shenyang Huang, Pingping Chen, Hugen Yan, Zhenghua An
Summary: Researchers have observed that the infrared emission spectrum from electrically biased GaAs devices deviates significantly from the Planck distribution due to the additional contribution of non-equilibrium hot electrons. The hot electrons emit evanescent infrared radiation, which is out-coupled by a near-field metamaterial grating, impacting the total far-field emission spectrum. Additionally, resonance emission peaks were observed when the electron hotspots spatially overlapped with the optical hotspots at the grating resonance.
Article
Astronomy & Astrophysics
Benjamin Charnay, Joao M. Mendonca, Laura Kreidberg, Nicolas B. Cowan, Jake Taylor, Taylor J. Bell, Olivier Demangeon, Billy Edwards, Carole A. Haswell, Giuseppe Morello, Lorenzo V. Mugnai, Enzo Pascale, Giovanna Tinetti, Pascal Tremblin, Robert T. Zellem
Summary: The ESA-Ariel mission will dedicate about 10% of its time to studying exoplanet phase curves, aiming to provide key constraints on atmospheric dynamics, composition, thermal structure, and clouds of warm exoplanets through defining science questions, requirements, and a list of potential targets, as well as estimating precision and conducting simulated phase curves. It is expected that full-orbit phase variations for 35-40 exoplanets could be observed during the 3.5-year mission.
EXPERIMENTAL ASTRONOMY
(2022)
Article
Astronomy & Astrophysics
A. Kokori, A. Tsiaras, B. Edwards, M. Rocchetto, G. Tinetti, L. Bewersdorff, Y. Jongen, G. Lekkas, G. Pantelidou, E. Poultourtzidis, A. Wunsche, C. Aggelis, V. K. Agnihotri, C. Arena, M. Bachschmidt, D. Bennett, P. Benni, K. Bernacki, E. Besson, L. Betti, A. Biagini, P. Brandebourg, M. Bretton, S. M. Brincat, M. Calo, F. Campos, R. Casali, R. Ciantini, M. Crow, B. Dauchet, S. Dawes, M. Deldem, D. Deligeorgopoulos, R. Dymock, T. Eenmae, P. Evans, N. Esseiva, C. Falco, S. Ferratfiat, M. Fowler, S. R. Futcher, J. Gaitan, F. Grau Horta, P. Guerra, F. Hurter, A. Jones, W. Kang, H. Kiiskinen, T. Kim, D. Laloum, R. Lee, F. Lomoz, C. Lopresti, M. Mallonn, M. Mannucci, A. Marino, J-C Mario, J-B Marquette, J. Michelet, M. Miller, T. Mollier, D. Molina, N. Montigiani, F. Mortari, M. Morvan, L. Mugnai, L. Naponiello, A. Nastasi, R. Neito, E. Pace, P. Papadeas, N. Paschalis, C. Pereira, V Perroud, M. Phillips, P. Pintr, J-B Pioppa, A. Popowicz, M. Raetz, F. Regembal, K. Rickard, M. Roberts, L. Rousselot, X. Rubia, J. Savage, D. Sedita, D. Shave-Wall, N. Sioulas, V Skolnik, M. Smith, D. St-Gelais, D. Stouraitis, I Strikis, G. Thurston, A. Tomacelli, A. Tomatis, B. Trevan, P. Valeau, J-P Vignes, K. Vora, M. Vrastak, F. Walter, B. Wenzel, D. E. Wright, M. Zibar
Summary: The ExoClock project monitors and updates the ephemerides of Ariel targets using observations from ground telescopes, midtime values from literature, and space instrument observations. The updated ephemerides have implications for future scheduling and have significantly improved precision.
ASTROPHYSICAL JOURNAL SUPPLEMENT SERIES
(2022)
Article
Optics
Lara O. Anisman, Katy L. Chubb, Quentin Changeat, Billy Edwards, Sergei N. Yurchenko, Jonathan Tennyson, Giovanna Tinetti
Summary: The discovery of super-Earth and mini-Neptune exoplanets has led to increased research on atmospheric signals from low-mass, temperate exoplanets. The launch of space telescopes such as James Webb (JWST) and Ariel will provide unprecedented spectroscopic data for a large number of exoplanets in our galaxy. However, accurately extracting the information content from these data sets requires robust models and techniques.
JOURNAL OF QUANTITATIVE SPECTROSCOPY & RADIATIVE TRANSFER
(2022)
Article
Astronomy & Astrophysics
Billy Edwards, Giovanna Tinetti
Summary: The ESA Ariel mission is set to launch in 2029 and will survey around 1000 exoplanetary atmospheres. Ariel will provide homogeneous data sets to unveil the atmospheric demographics of these distant worlds and help understand planet formation and evolution processes. With a sufficient sample of planets to choose from, Ariel can also characterize multiple planets within the same system.
ASTRONOMICAL JOURNAL
(2022)
Article
Astronomy & Astrophysics
Arianna Saba, Angelos Tsiaras, Mario Morvan, Alexandra Thompson, Quentin Changeat, Billy Edwards, Andrew Jolly, Ingo Waldmann, Giovanna Tinetti
Summary: This study presents the transmission spectrum of the hot Jupiter WASP-17 b, observed with the Hubble Space Telescope and Spitzer Space Telescope, revealing the atmospheric composition and signatures of water, aluminum oxide, and titanium hydride. However, incomplete spectral data restrict the accurate characterization of the atmospheric limb of WASP-17 b.
ASTRONOMICAL JOURNAL
(2022)
Article
Astronomy & Astrophysics
A. Kokori, A. Tsiaras, B. Edwards, A. Jones, G. Pantelidou, G. Tinetti, L. Bewersdorff, A. Iliadou, Y. Jongen, G. Lekkas, A. Nastasi, E. Poultourtzidis, C. Sidiropoulos, F. Walter, A. Wuensche, R. Abraham, V. K. Agnihotri, R. Albanesi, E. Arce-Mansego, D. Arnot, M. Audejean, C. Aumasson, M. Bachschmidt, G. Baj, P. R. Barroy, A. A. Belinski, D. Bennett, P. Benni, K. Bernacki, L. Betti, A. Biagini, P. Bosch, P. Brandebourg, L. Brat, M. Bretton, S. M. Brincat, S. Brouillard, A. Bruzas, A. Bruzzone, R. A. Buckland, M. Calo, F. Campos, A. Carreno, J. A. Carrion Rodrigo, R. Casali, G. Casalnuovo, M. Cataneo, C. -M. Chang, L. Changeat, V. Chowdhury, R. Ciantini, M. Cilluffo, J. -F. Coliac, G. Conzo, M. Correa, G. Coulon, N. Crouzet, M. V. Crow, I. A. Curtis, D. Daniel, B. Dauchet, S. Dawes, M. Deldem, D. Deligeorgopoulos, G. Dransfield, R. Dymock, T. Eenmaee, N. Esseiva, P. Evans, C. Falco, R. G. Farfan, E. Fernandez-Lajus, S. Ferratfiat, S. L. Ferreira, A. Ferretti, J. Fiolka, M. Fowler, S. R. Futcher, D. Gabellini, T. Gainey, J. Gaitan, P. Gajdos, A. Garcia-Sanchez, J. Garlitz, C. Gillier, C. Gison, J. Gonzales, D. Gorshanov, F. Grau Horta, G. Grivas, P. Guerra, T. Guillot, C. A. Haswell, T. Haymes, V. -P. Hentunen, K. Hills, K. Hose, T. Humbert, F. Hurter, T. Hynek, M. Irzyk, J. Jacobsen, A. L. Jannetta, K. Johnson, P. Jozwik-Wabik, A. E. Kaeouach, W. Kang, H. Kiiskinen, T. Kim, Ue. Kivila, B. Koch, U. Kolb, H. Kucakova, S. -P. Lai, D. Laloum, S. Lasota, L. A. Lewis, G. -I. Liakos, F. Libotte, F. Lomoz, C. Lopresti, R. Majewski, A. Malcher, M. Mallonn, M. Mannucci, A. Marchini, J. -M. Mari, A. Marino, G. Marino, J. -C. Mario, J. -B. Marquette, F. A. Martinez-Bravo, M. Masek, P. Matassa, P. Michel, J. Michelet, M. Miller, E. Miny, D. Molina, T. Mollier, B. Monteleone, N. Montigiani, M. Morales-Aimar, F. Mortari, M. Morvan, L. V. Mugnai, G. Murawski, L. Naponiello, J. -L. Naudin, R. Naves, D. Neel, R. Neito, S. Neveu, A. Noschese, Y. Oegmen, O. Ohshima, Z. Orbanic, E. P. Pace, C. Pantacchini, N. I. Paschalis, C. Pereira, I. Peretto, V. Perroud, M. Phillips, P. Pintr, J. -B. Pioppa, J. Plazas, A. J. Poelarends, A. Popowicz, J. Purcell, N. Quinn, M. Raetz, D. Rees, F. Regembal, M. Rocchetto, P. -F Rocci, M. Rockenbauer, R. Roth, L. Rousselot, X. Rubia, N. Ruocco, E. Russo, M. Salisbury, F. Salvaggio, A. Santos, J. Savage, F. Scaggiante, D. Sedita, S. Shadick, A. F. Silva, N. Sioulas, V. Skolnik, M. Smith, M. Smolka, A. Solmaz, N. Stanbury, D. Stouraitis, T. -G. Tan, M. Theusner, G. Thurston, F. P. Tifner, A. Tomacelli, A. Tomatis, J. Trnka, M. Tylsar, P. Valeau, J. -P. Vignes, A. Villa, A. Vives Sureda, K. Vora, M. Vrast'ak, D. Walliang, B. Wenzel, D. E. Wright, R. Zambelli, M. Zhang, M. Zibar
Summary: The ExoClock project aims to increase the efficiency of the Ariel mission by continuously monitoring and updating the ephemerides of candidate planets. The project has generated a catalog of updated ephemerides for 450 planets by integrating data from multiple sources. The ephemerides generated by the project are more precise and less biased compared to the literature, and the project enables the monitoring of 95% of the Ariel candidates.
ASTROPHYSICAL JOURNAL SUPPLEMENT SERIES
(2023)
Proceedings Paper
Engineering, Aerospace
Ian Stotesbury, Billy Edwards, Jean-Francois Lavigne, Vasco Pesquita, James J. Veilleux, Philip Windred, Ahmed Al-Refaie, Lawrence Bradley, Sushang Ma, Giorgio Savini, Giovanna Tinetti, Til Birnstiel, Sally Dodson-Robinson, Barbara Ercolano, Dax Feliz, Scott Gaudi, Nina Hernitschek, Daniel Holdsworth, Ing-Guey Jiang, Matthew J. Griffin, Nataliea Lowson, Karan Molaverdikhani, Hilding Neilson, Caprice Phillips, Thomas Preibisch, Subhajit Sarkar, Keivan Stassun, Derek Ward-Thompson, Duncan Wright, Ming Yang, Li-Chin Yeh, Ji-Lin Zhou, Richard Archer, Yoga Barrathwaj Raman Mohan, Max Joshua, Marcell Tessenyi, Jonathan Tennyson, Benjamin Wilcock
Summary: With a focus on off-the-shelf components, Twinkle is the first in a series of cost competitive small satellites managed and financed by Blue Skies Space Ltd.
SPACE TELESCOPES AND INSTRUMENTATION 2022: OPTICAL, INFRARED, AND MILLIMETER WAVE
(2022)
Proceedings Paper
Engineering, Aerospace
Andrea Tozzi, Anna Brucalassi, Rodolfo Canestrari, Paolo Chioetto, Ciro Del Vecchio, Luca Carbonaro, Fausto Cortecchia, Emiliano Diolaiti, Paul Eccleston, Gilberto Falcini, Debora Ferruzzi, Daniele Gottini, Elisa Guerriero, Marcella Iuzzolino, Riccardo Lilli, Matteo Lombini, Giuseppe Malaguti, Giuseppina Micela, Federico Miceli, Gianluca Morgante, Emanuele Pace, Enzo Pascale, Raffaele Piazzolla, Giampaolo Preti, Mario Salatti, Antonio Scippa, Giovanna Tinetti, Elisabetta Tommasi, Dervis Vernani, Paola Zuppella
Summary: Ariel, the M4 mission of ESA Cosmic Vision program, is a space telescope designed to survey the atmospheres of known exoplanets through transit spectroscopy. It will be launched in 2029 and equipped with a set of photometers and spectrometers operating at cryogenic temperatures. The telescope features an innovative aluminum primary mirror, which simplifies thermal stabilization, reduces cost, and ensures precise alignment at different temperatures.
SPACE TELESCOPES AND INSTRUMENTATION 2022: OPTICAL, INFRARED, AND MILLIMETER WAVE
(2022)
Proceedings Paper
Engineering, Aerospace
Vladimiro Noce, Mauro Focardi, Anna Maria Di Giorgio, Emanuele Galli, Maria Farina, Giovanni Giusi, Marina Vela Nunez, Luca Naponiello, Andrea Lorenzani, Luca Serafini, Carlo Del Vecchio Blanco, Marco Verna, Cristophe Cara, Michel Berthe, Jerome Martignac, Roland Ottensamer, Giuseppina Micela, Giuseppe Malaguti, Natalia Auricchio, Emanuele Pace, Giampaolo Preti, Federico Miceli, Enzo Pascale, Giovanna Tinetti, Paul Eccleston, Elisabetta Tommasi, Fulvio De Persio, Pietro Bolli, Renzo Nesti, Marcella Iuzzolino, Luca Carbonaro, Ciro Del Vecchio, Debora Ferruzzi, Anna Brucalassi, Gilberto Falcini, Andrea Tozzi, Daniele Gottini
Summary: ARIEL is a medium-class mission of the European Space Agency that aims to study the composition and evolution of exoplanet atmospheres. It will observe about 1000 planet samples using various methods, simultaneously in visible and infrared wavelengths.
SPACE TELESCOPES AND INSTRUMENTATION 2022: OPTICAL, INFRARED, AND MILLIMETER WAVE
(2022)
Proceedings Paper
Engineering, Aerospace
Vladimiro Noce, Mauro Focardi, Marina Vela Nunez, Luca Naponiello, Andrea Lorenzani, Raoul Grimoldi, Elio Mangraviti, Luca Carli, Kamil Ber, Miroslaw Rataj, Konrad Rutkowski, Konrad R. Skup, Przemyslaw Nita, Giuseppina Micela, Giuseppe Malaguti, Natalia Auricchio, Emanuele Pace, Giampaolo Preti, Enzo Pascale, Giovanna Tinetti, Paul Eccleston, Elisabetta Tommasi, Mario Salatti, Raffaele Piazzolla, Pietro Bolli, Renzo Nesti, Marcella Iuzzolino, Luca Carbonaro, Ciro Del Vecchio, Debora Ferruzzi, Federico Miceli, Anna Brucalassi, Gilberto Falcini, Andrea Tozzi, Daniele Gottini, Federico Micelia
Summary: ARIEL is an ESA mission aimed at investigating exoplanetary atmospheres. It consists of two instruments, AIRS and FGS. The FGS detection chain includes two detectors and cold Front End Electronics (SIDECAR), which are controlled by the F-DCU boards in the FCU box. The F-DCU performs various tasks such as driving the detectors, processing data and managing command exchange.
SPACE TELESCOPES AND INSTRUMENTATION 2022: OPTICAL, INFRARED, AND MILLIMETER WAVE
(2022)
Proceedings Paper
Engineering, Aerospace
Guerriero Elisa, Chioetto Paolo, Tozzi Andrea, Zuppella Paola, Canestrari Rodolfo, Brucalassi Anna, Iuzzolino Marcella, Ferruzzi Debora, Scippa Antonio, Del Vecchio Ciro, Falcini Gilberto, Carbonaro Luca, Morgante Gianluca, Cortecchia Fausto, Diolaiti Emiliano, Eccleston Paul, Lombini Matteo, Malaguti Giuseppe, Micela Giuseppina, Pace Emanuele, Pascale Enzo, Piazzolla Raffaele, Preti Giampaolo, Salatti Mario, Tinetti Giovanna, Tommasi Elisabetta
Summary: The Atmospheric Remote-Sensing Infrared Exoplanet Large Survey (Ariel) is a mission under the Cosmic Vision program of the European Space Agency. It aims to study the atmospheres of approximately 1000 exoplanets. The mission will use an off-axis, unobscured Cassegrain telescope with photometers and spectrometers operating at cryogenic temperatures. The challenge lies in developing a heat treatment procedure to stabilize the aluminium mirrors, particularly the Al6061T651 Laminated alloy.
SPACE TELESCOPES AND INSTRUMENTATION 2022: OPTICAL, INFRARED, AND MILLIMETER WAVE
(2022)
Proceedings Paper
Engineering, Aerospace
M. Focardi, M. Michelagnoli, V Noce, M. Vela Nunez, P. Bolli, R. Nesti, A. Lorenzani, L. Carbonaro, C. Del Vecchio, G. Falcini, A. Tozzi, A. Di Giorgio, E. Galli, M. Farina, G. Giusi, S. J. Liu, M. Venter, E. Tommasi, F. De Persio, M. Salatti, D. Brienza, R. Piazzolla, G. Morgante, N. Auricchio, E. Pascale, L. Naponiello, G. Redigonda, E. Pace, G. Preti, G. Micela, G. Malaguti, P. Eccleston, A. Caldwell, G. Bishop, L. Desjonqueres, G. Tinetti
Summary: This article presents some preliminary simulations and analyses on the charging of dielectrics and semiconductors of the Ariel payload along the transfer orbit from launch to L2.
SPACE TELESCOPES AND INSTRUMENTATION 2022: OPTICAL, INFRARED, AND MILLIMETER WAVE
(2022)
Proceedings Paper
Engineering, Aerospace
Daniele Gottini, Emanuele Pace, Andrea Tozzi, Giovanni Bianucci, Andrea Bocchieri, Daniele Brienza, Anna Brucalassi, Rodolfo Canestrari, Luca Carbonaro, Paolo Chioetto, Fausto Cortecchia, Ciro Del Vecchio, Emiliano Diolaiti, Paul Eccleston, Salma Fahmy, Debora Ferruzzi, Camille Galy, Gabriele Grisoni, Elisa Guerriero, Jean-Philippe Halain, Marie-Laure Hellin, Marcella Iuzzolino, Delphine Jollet, Matteo Lombini, Giuseppe Malaguti, Giuseppina Micela, Nadia Missaglia, Gianluca Morgante, Lorenzo Mugnai, Luca Naponiello, Enzo Pascale, Raffaele Piazzolla, Giampaolo Preti, Stephane Roose, Mario Salatti, Jean-Christophe Salvignol, Antonio Scippa, Luca Terenzi, Giovanna Tinetti, Elisabetta Tommasi Di Vigano, Paola Zuppella
Summary: Ariel is an ESA mission that aims to study exoplanets. It will orbit in the lagrangian point L2 and survey 1000 exoplanets simultaneously in visible and infrared wavelengths. The challenging scientific goals of Ariel require unprecedented engineering efforts, especially in designing the primary mirror with high accuracy. Some tests on a prototype mirror revealed unexpected deformation, leading to the need for numerical simulations to identify and understand the errors and guide future testing campaigns.
SPACE TELESCOPES AND INSTRUMENTATION 2022: OPTICAL, INFRARED, AND MILLIMETER WAVE
(2022)
Proceedings Paper
Engineering, Aerospace
Neil E. Bowles, Manuel Abreu, Tim A. van Kempen, Matthijs Krijger, Robert Spry, Rory Evans, Robert A. Watkins, Cedric Pereira, E. Pascale, Paul Eccleston, Chris Pearson, Lucile Desjonqueres, Georgia Bishop, Andrew Caldwell, Andrea Moneti, Mauro Focardi, Subhajit Sarkar, Giuseppe Malaguti, Ioannis Argyriou, Keith Nowicki, Alexandre Cabral, Giovanna Tinetti
Summary: This paper describes the development of Optical Ground Support Equipment (OGSE) for the testing of Ariel Space Telescope's payload level. The OGSE will verify the performance of Ariel's payload under vacuum and cryogenic test conditions and ensure that the telescope meets its challenging photometric and spectral requirements.
SPACE TELESCOPES AND INSTRUMENTATION 2022: OPTICAL, INFRARED, AND MILLIMETER WAVE
(2022)
Proceedings Paper
Engineering, Aerospace
Paolo Chioetto, Andrea Tozzi, Anna Brucalassi, Debora Ferruzzi, Andrew Caldwell, Martin Caldwell, Fausto Cortecchia, Emiliano Diolaiti, Paul Eccleston, Elisa Guerriero, Matteo Lombini, Giuseppe Malaguti, Giuseppina Micela, Emanuele Pace, Enzo Pascale, Raffaele Piazzolla, Giampaolo Preti, Mario Salatti, Giovanna Tinetti, Elisabetta Tommasi, Paola Zuppella
Summary: Ariel is a mission in the ESA Cosmic Vision program that aims to study the atmospheres of exoplanets through infrared transit spectroscopy. This paper describes the analysis of possible misalignments in the telescope and discusses the methodology and preliminary results of compensation for these misalignments. The study provides important insights for the design of optical and mechanical mounting systems for the mirrors.
SPACE TELESCOPES AND INSTRUMENTATION 2022: OPTICAL, INFRARED, AND MILLIMETER WAVE
(2022)
