Your search keyword '"Chazelas, Bruno"' showing total 4 results

1. Ultraviolet astronomical spectrograph calibration with laser frequency combs from nanophotonic waveguides

Author

Ludwig, Markus, Ayhan, Furkan, Schmidt, Tobias M., Wildi, Thibault, Voumard, Thibault, Blum, Roman, Ye, Zhichao, Lei, Fuchuan, Wildi, François, Pepe, Francesco, Gaafar, Mahmoud A., Obrzud, Ewelina, Grassani, Davide, Moreau, François, Chazelas, Bruno, Sottile, Rico, Torres-Company, Victor, Brasch, Victor, Villanueva, Luis G., Bouchy, François, and Herr, Tobias

Subjects

FOS: Physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Physics - Optics, Optics (physics.optics)

Abstract

Astronomical precision spectroscopy underpins searches for life beyond Earth, direct observation of the expanding Universe and constraining the potential variability of physical constants across cosmological scales. Laser frequency combs can provide the critically required accurate and precise calibration to the astronomical spectrographs. For cosmological studies, extending the calibration with such astrocombs to the ultraviolet spectral range is highly desirable, however, strong material dispersion and large spectral separation from the established infrared laser oscillators have made this exceedingly challenging. Here, we demonstrate for the first time astronomical spectrograph calibrations with an astrocomb in the ultraviolet spectral range below 400 nm. This is accomplished via chip-integrated highly nonlinear photonics in periodically-poled, nano-fabricated lithium niobate waveguides in conjunction with a robust infrared electro-optic comb generator, as well as a chip-integrated microresonator comb. These results demonstrate a viable route towards astronomical precision spectroscopy in the ultraviolet and may contribute to unlocking the full potential of next generation ground- and future space-based astronomical instruments.

Published

2023

2. RISTRETTO: seven spaxel single mode spectrograph design

Author

Chazelas, Bruno, Lovis, Christophe, Blind, Nicolas, Genolet, Ludovic, Hughes, Ian, Sordet, Michael, Schnell, Robin, Carvalho, Anthony, and Bugatti, Maddalena

Subjects

FOS: Physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM)

Abstract

The RISTRETTO project is aiming to build an instrument that will detect the reflected light from close-by exoplanet. It is a two stage instrument: An extreme AO system in the visible, followed by a seven spaxel single mode High resolution Spectrograph. In this paper we present the design of this spectrograph: a classical echelle spectrograph fed with single mode fibers. Standard single mode fibers have been chosen and are forming a long tilted slit in order to have the right order spacing on the detector. The instrument will be under vacuum and thermally controlled in order to make it stable., Comment: 7 pages, 7 figures, SPIE Astronomical Telescope and Instrumentation 2022, conference : Ground-based and Airborne Instrumentation for Astronomy IX (12184)

Published

2022

3. Near-InfraRed Planet Searcher to Join HARPS on the ESO 3.6-metre Telescope

Author

Bouchy, François, Doyon, René, Artigau, Étienne, Melo, Claudio, Hernandez, Olivier, Wildi, François, Delfosse, Xavier, Lovis, Christophe, Figueira, Pedro, Canto Martins, Bruno L., González Hernández, Jonay I., Thibault, Simon, Reshetov, Vladimir, Pepe, Francesco, Santos, Nuno C., De Medeiros, José Renan, Rebolo, Rafael, Abreu, Manuel, Adibekyan, Vardan Z., Bandy, Timothy, Benz, Willy, Blind, Nicolas, Bohlender, David, Boisse, Isabelle, Bovay, Sébastien, Broeg, Christopher, Brousseau, Denis, Cabral, Alexandre, Chazelas, Bruno, Cloutier, Ryan, Coelho, João, Conod, Uriel, Cumming, Andrew, Delabre, Bernard, Genolet, Ludovic, Hagelberg, Janis, Jayawardhana, Ray, Käufl, Hans-Ulrich, Lafrenière, David, De Castro Leão, Izan, Malo, Lison, De Medeiros Martins, Allan, Matthews, Jaymie M., Metchev, Stanimir, Oshagh, Mahmoudreza, Ouellet, Mathieu, Parro, Vanderlei C., Rasilla Piñeiro, José Luis, Santos, Pedro, Sarajlic, Mirsad, Segovia, Alex, Sordet, Michael, Udry, Stéphane, Valencia, Diana, Vallée, Philippe, Venn, Kim, Wade, Gregg A., and Saddlemyer, Les

Subjects

Astrophysics::Instrumentation and Methods for Astrophysics, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

The Near-InfraRed Planet Searcher (NIRPS) is a new ultra-stable infrared (YJH) spectrograph that will be installed on ESO’s 3.6-metre Telescope in La Silla, Chile. Aiming to achieve a precision of 1 m s–1, NIRPS is designed to find rocky planets orbiting M dwarfs, and will operate together with the High Accuracy Radial velocity Planet Searcher (HARPS), also on the 3.6-metre Telescope. In this article we describe the NIRPS science cases and present its main technical characteristics., Published in The Messenger vol. 169, pp. 21-27, September 2017.

Published

2017

4. NGTS-4b: A sub-Neptune transiting in the desert

Author

West, Richard G, Gillen, Edward, Bayliss, Daniel, Burleigh, Matthew R, Delrez, Laetitia, Günther, Maximilian N, Hodgkin, Simon T, Jackman, James AG, Jenkins, James S, King, George, McCormac, James, Nielsen, Louise D, Raynard, Liam, Smith, Alexis MS, Soto, Maritza, Turner, Oliver, Wheatley, Peter J, Almleaky, Yaseen, Armstrong, David J, Belardi, Claudia, Bouchy, François, Briegal, Joshua T, Burdanov, Artem, Cabrera, Juan, Casewell, Sarah L, Chaushev, Alexander, Chazelas, Bruno, Chote, Paul, Cooke, Benjamin F, Csizmadia, Szilard, Ducrot, Elsa, Eigmüller, Philipp, Erikson, Anders, Foxell, Emma, Gänsicke, Boris T, Gillon, Michaël, Goad, Michael R, Jehin, Emmanuël, Lambert, Gregory, Longstaff, Emma S, Louden, Tom, Moyano, Maximiliano, Murray, Catriona, Pollacco, Don, Queloz, Didier, Rauer, Heike, Sohy, Sandrine, Thompson, Samantha J, Udry, Stéphane, Walker, Simon R, and Watson, Christopher A

Subjects

techniques: photometric, planets and satellites: detection, 13. Climate action, stars: individual: NGTS-4 planetary systems

Abstract

We report the discovery of NGTS-4b, a sub-Neptune-sized planet transiting a 13th magnitude K-dwarf in a 1.34d orbit. NGTS-4b has a mass M=$20.6\pm3.0$M_E and radius R=$3.18\pm0.26$R_E, which places it well within the so-called "Neptunian Desert". The mean density of the planet ($3.45\pm0.95$g/cm^3) is consistent with a composition of 100% H$_2$O or a rocky core with a volatile envelope. NGTS-4b is likely to suffer significant mass loss due to relatively strong EUV/X-ray irradiation. Its survival in the Neptunian desert may be due to an unusually high core mass, or it may have avoided the most intense X-ray irradiation by migrating after the initial activity of its host star had subsided. With a transit depth of $0.13\pm0.02$%, NGTS-4b represents the shallowest transiting system ever discovered from the ground, and is the smallest planet discovered in a wide-field ground-based photometric survey.