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Head in the stars

In France, the "Nuits des étoiles" (Starry Nights) start today. This is an opportunity to discover the latest and most powerful telescopes, which allow us to observe our Universe like never before...

The Pic du Midi Observatory in the moonlight
The Pic du Midi Observatory in the moonlight

© Hubert Raguet / Laboratoire de Physique de l'ENS / Observatoire de Paris / Observatoire Midi-Pyrénées / CNRS Images

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The Nuits des étoiles 2024, running from 9 to 11 August throughout France, is organised by the French Astronomy Association and the "Origins" Priority Research Programme (PEPR) run by the CNRS. Professional astronomers join forces to pass on their passion, and they have not been standing around idle, assisted by increasingly ingenious engineers, in order to create extraordinary equipment to observe the night sky. This has led to a new generation of incredibly powerful telescopes and instruments emerging everywhere from France to Chile, pushing back the limits of the observable Universe and allowing us to explore never before seen regions.

For example, at the Pic du Midi planetology station, the recent infrared camera developed by David Darson takes new images of our solar system while using fewer resources. However, it is in Chile, where low light pollution and close proximity to the equator provide an excellent observation point, that the most ambitious telescopes have been set up in recent years. The Very Large Telescope (VLT) is one of the most widely used instruments in the world, producing more than one scientific publication per day on average. It allows us to observe galaxies at the very edge of the Universe through the Muse and Sphere instruments, produced in French laboratories, and whose incredible history we will be telling you about. Also in Chile, the LSST (Large Synoptic Survey Telescope) is preparing to map the entire Universe in 3D, to produce a 'film' that will help us understand its structure and dynamics. The objective is to learn more about dark matter and dark energy that make up 95% of the cosmos, and also to identify possible near-Earth objects, asteroids that could collide with Earth.

Once again, CNRS scientists were involved in the creation of this extraordinary tool. So we invite you to look up at the sky with us through the most incredible telescopes on our planet, and to walk among the stars...

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Noema (Northern Extended Millimeter Array) is the most powerful radio telescope in the northern hemisphere and one of the largest facilities in Europe for astronomical research. Located on the Plateau de Bure in the French Alps at an altitude of 2 550 m, it is operated by the Institut de Radioastronomie Millimétrique (IRAM). Noema has reached its full sensitivity with the commissioning of its 12th antenna in 2022. This network of high precision radio antennas will allow new observations of the…

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The Noema observatory, equipped with an array of twelve radio antennas
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Télescope Canada-France-Hawaï (CFHT), observatoire astronomique du Maunakea à Hawaï, aux Etats-Unis. Le CFHT est financé par le Canada (CNRC), la France (CNRS) et l'Universite d'Hawaii. Ce télescope fera partie du programme H2020 de l'UE pour améliorer la manière dont les télescopes radio et optiques travaillent ensemble. Grâce à un financement de 15 millions d'euros, le réseau OPTICON-RadioNet PILOT (ORP) a été créé afin d’harmoniser les méthodes et les outils d’observation des instruments…

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Télescope Canada-France-Hawaï (CFHT), observatoire astronomique du Maunakea à Hawaï
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Grande coupole et son télescope T193 (miroir de 193 cm de diamètre) à l'Observatoire de Haute-Provence (OHP) à Saint-Michel l'Observatoire. Le spectroscope Sophie (installé au télescope de 193 cm, au deuxième plan) a contribué à la détection et à la caractérisation du système exoplanétaire WASP-148. Les scientifiques ont ensuite analysé le mouvement de l’étoile et en ont déduit qu’elle hébergeait deux planètes : WASP-148b et WASP-148c. Ces observations ont montré que les deux planètes étaient…

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Grande coupole et son télescope T193 à l'OHP à Saint-Michel l'Observatoire
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Faisceau laser issu du télescope MéO, sur le plateau de Calern, à l'observatoire de la Côte d'Azur. Ce télescope Ritchey-Chrétien d'1,50 m de diamètre est utilisé pour des mesures par télémétrie laser de la distance entre la Terre et des satellites. Il possède deux axes de rotation : vertical (azimut) et horizontal (élévation). Les satellites observés sont équipés de rétro-réflecteurs et la Lune, satellite naturel, en possède cinq, déposés par les missions Apollo et Lunokhod. Ils renvoient au…

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Faisceau laser issu du télescope MéO sur le plateau de Calern
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Françoise Combes, astrophysicienne lauréate de la médaille d'or du CNRS 2020, ici à l’Observatoire de Paris - PSL (LERMA, CNRS / Ecole Normale Supérieure / Univ. de Cergy-Pontoise). Spécialiste de la dynamique des galaxies, elle a mis en évidence de nombreux phénomènes permettant d'expliquer leur formation et leur évolution. Aujourd’hui professeure au Collège de France, elle poursuit ses recherches au Laboratoire d’études du rayonnement et de la matière en astrophysique et atmosphères (Lerma).

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Françoise Combes Médaille d'or du CNRS 2020
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Coupole Baillaud abritant un instrument d'observation solaire, à l’Observatoire du Pic du Midi. Cette photographie a été réalisée dans le cadre d’une mission à la Station de Planétologie des Pyrénées de l'Observatoire du Pic du Midi. David Darson est venu réaliser des images du système solaire à l’aide d’une caméra infrarouge HDR (High Dynamic Range : à très haute dynamique) qu'il vient de développer et qu’il teste en partenariat avec François Colas, astronome responsable du télescope T1m…

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Coupole Baillaud à l’Observatoire du Pic du Midi
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Coupole du télescope MéO, sur le plateau de Calern, à l'observatoire de la Côte d'Azur. Ce télescope Ritchey-Chrétien d'1,50 m de diamètre est utilisé pour des mesures par télémétrie laser de la distance entre la Terre et des satellites. Il possède deux axes de rotation : vertical (azimut) et horizontal (élévation). Les satellites observés sont équipés de rétro-réflecteurs et la Lune, satellite naturel, en possède cinq, déposés par les missions Apollo et Lunokhod. Ils renvoient au télescope la…

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Coupole du télescope MéO, sur le plateau de Calern
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Cosmic rays are those accelerated subatomic particles of unknown origin constantly showering the Earth and whose energy for some of them equates that of a shotgun bullet. The film is a short overview of current detectors and research paths for the years to come. A longer version of this film entitled “Radio cosmic” is available.

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Mystery of cosmic rays (The)
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With an average of over one scientific article a day being published, the Very Large Telescope (VLT) is the astronomic observatory with the biggest scientific output in the world. As shown in this video, 2015 is to be a year abounding with discoveries especially with the Muse and Sphere instruments produced in French laboratories and mounted in Chile over the last year. This video was created from VLT, as a gateway to the stars. It is a film by Roland Bacon, astrophysicist, to be viewed via…

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VLT enters into service (The)
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In operation since June 2014, the Spectro-Polarimetric High-contrast Exoplanet REsearch instrument (SPHERE), attached to one of the four mirrors of the Very Large Telescope (VLT) in Chile, was designed for the direct observation of extrasolar planets. Light reflected by exoplanets is much fainter than that of their neighboring stars, making direct detection very difficult. SPHERE combines a number of technologies to obtain extremely high-contrast images in the area around the star to identify…

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A new eye on distant worlds
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Within 35 minutes the film explores the inspiration and the story behind MUSE, why it was needed how it came into life over a nine year long development phase. It highlights the needed international European cooperation to realise the project and the participation of some of the hundreds of researchers, technicians and engineers involved. The innovative technology of MUSE and the front-line science done with it are discussed as well. Also the delicate installation process and the moment of…

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MUSE, the Cosmic Time Machine
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Sofia is a Boeing 747 like no other. Run by NASA and the DLR, the German space agency, this aircraft was specially modified to accommodate a telescope. Come on board with astrophysicist Olivier Berné and jet to the stratosphere to observe the nebula of Orion, where stars are born.

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A Flight to Orion
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NOEMA (NOrthern Extended Millimeter Array) is the most powerful millimetre radio telescope in the northern hemisphere. Located on the Bure plateau, in the Hautes-Alpes, the observatory will eventually consist of 12 antennae that will form a single large radio telescope capable of revealing the invisible thanks to interferometry. Equipped with a new generation of receivers and electronics, these antennas will be able to capture the coldest light emitted by the universe, around 250°C. The…

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NOEMA, a new vista on the invisible
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Noema (Northern Extended Millimeter Array) is the most powerful radio telescope in the northern hemisphere and one of the largest facilities in Europe for astronomical research. Located on the Plateau de Bure in the French Alps at an altitude of 2 550 m, it is operated by the Institut de Radioastronomie Millimétrique (IRAM). Noema has reached its full sensitivity with the commissioning of its 12th antenna in 2022. This network of high precision radio antennas will allow new observations of the…

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The Noema observatory, equipped with an array of twelve radio antennas
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Open media modal

Noema (Northern Extended Millimeter Array) is the most powerful radio telescope in the northern hemisphere and one of the largest facilities in Europe for astronomical research. Located on the Plateau de Bure in the French Alps at an altitude of 2 550 m, it is operated by the Institut de Radioastronomie Millimétrique (IRAM). Noema has reached its full sensitivity with the commissioning of its 12th antenna in 2022. This network of high precision radio antennas will allow new observations of the…

Photo
20220018_0003
The Noema observatory, equipped with an array of twelve radio antennas
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Open media modal

Noema (Northern Extended Millimeter Array) is the most powerful radio telescope in the northern hemisphere and one of the largest facilities in Europe for astronomical research. Located on the Plateau de Bure in the French Alps at an altitude of 2 550 m, it is operated by the Institut de Radioastronomie Millimétrique (IRAM). Noema has reached its full sensitivity with the commissioning of its 12th antenna in 2022. This network of high precision radio antennas will allow new observations of the…

Photo
20220018_0002
The Noema observatory, equipped with an array of twelve radio antennas
Open media modal

Only available for non-commercial distribution

NOEMA (NOrthern Extended Millimeter Array) is the most powerful millimetre radio telescope in the northern hemisphere. Located on the Bure plateau, in the Hautes-Alpes, the observatory will eventually consist of 12 antennae that will form a single large radio telescope capable of revealing the invisible thanks to interferometry. Equipped with a new generation of receivers and electronics, these antennas will be able to capture the coldest light emitted by the universe, around 250°C. The…

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NOEMA, a new vista on the invisible
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Mesure interférométrique d’une optique en salle propre, visualisation des erreurs résiduelles de la surface optique par rapport à la forme désirée. A la fin du polissage, l’optique est testée dans des conditions environnementales contrôlées pour s'assurer que la courbure et la forme de la surface correspondent aux spécifications. Pour les optiques ultra-précises, l'écart entre les zone plus hautes (en rouge) et les zones en creux (bleu) ne dépasse pas quelques millionièmes de millimètre (nm)…

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Test final d’une optique en salle propre, mesure interférométrique
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Test d’une optique sur un banc d’interférométrie, pour mesurer la déformation engendrée par la réflexion d'un faisceau lumineux sur l’optique. La mesure est réalisée régulièrement durant le polissage de l’optique pour savoir si la courbure et la forme de la surface correspondent aux spécifications. Cette optique est destinée à l’instrument coronographique du télescope spatial Nancy-Grace-Roman développé par la NASA. Il vise à faire l’image des exoplanètes géantes gazeuses (comme Jupiter) et…

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Test d’une optique en cours de polissage sur un banc d’interférométrie

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