Astronomical instrumentation

The GRAVITY young stellar object survey

Astronomy & Astrophysics EDP Sciences 655 (2021) a73

Authors:

K Perraut, L Labadie, J Bouvier, F Ménard, L Klarmann, C Dougados, M Benisty, J-P Berger, Y-I Bouarour, W Brandner, A Caratti O Garatti, P Caselli, PT de Zeeuw, R Garcia-Lopez, T Henning, J Sanchez-Bermudez, A Sousa, E van Dishoeck, E Alécian, A Amorim, Y Clénet, R Davies, A Drescher, G Duvert, A Eckart, F Eisenhauer, NM Förster-Schreiber, P Garcia, E Gendron, R Genzel, S Gillessen, R Grellmann, G Heißel, S Hippler, M Horrobin, Z Hubert, L Jocou, P Kervella, S Lacour, V Lapeyrère, J-B Le Bouquin, P Léna, D Lutz, T Ott, T Paumard, G Perrin, S Scheithauer, J Shangguan, T Shimizu, J Stadler, O Straub, C Straubmeier, E Sturm, L Tacconi, F Vincent, S von Fellenberg, F Widmann

Polycyclic aromatic hydrocarbons in seyfert and star-forming galaxies

Monthly Notices of the Royal Astronomical Society Oxford University Press 509:3 (2021) 4256-4275

Authors:

I García-Bernete, D Rigopoulou, A Alonso-Herrero, M Pereira-Santaella, Patrick Roche, B Kerkeni

Abstract:

Polycyclic Aromatic Hydrocarbons (PAHs) are carbon-based molecules resulting from the union of aromatic rings and related species, which are likely responsible for strong infrared emission features. In this work, using a sample of 50 Seyfert galaxies (DL < 100 Mpc) we compare the circumnuclear (inner kpc) PAH emission of AGN to that of a control sample of star-forming galaxies (22 luminous infrared galaxies and 30 H ii galaxies), and investigate the differences between central and extended PAH emission. Using Spitzer/InfraRed Spectrograph spectral data of Seyfert and star-forming galaxies and newly developed PAH diagnostic model grids, derived from theoretical spectra, we compare the predicted and observed PAH ratios. We find that star-forming galaxies and AGN-dominated systems are located in different regions of the PAH diagnostic diagrams. This suggests that not only are the size and charge of the PAH molecules different, but also the nature and hardness of the radiation field that excite them. We find tentative evidence that PAH ratios in AGN-dominated systems are consistent with emission from larger PAH molecules (Nc > 300–400) as well as neutral species. By subtracting the spectrum of the central source from the total, we compare the PAH emission in the central versus extended region of a small sample of AGN. In contrast to the findings for the central regions of AGN-dominated systems, the PAH ratios measured in the extended regions of both type 1 and type 2 Seyfert galaxies can be explained assuming similar PAH molecular size distribution and ionized fractions of molecules to those seen in central regions of star-forming galaxies.

High-resolution spectroscopy

Chapter in ExoFrontiers: Big Questions in Exoplanetary Science, IOP Publishing (2021) 8-1

Authors:

Matteo Brogi, Jayne Birkby

Abstract:

High-resolution spectroscopy (HRS) allows resolving the spectrum of an exoplanetary atmosphere into individual lines and using the Doppler shift of the planet spectrum to disentangle it from other sources, such as telluric contamination and the host star spectrum. The method excels at identifying chemical species with numerous spectral lines and can be used for transmission, day/night-side emission, and reflected light spectroscopy. This chapter discusses the state of the art and important questions and goals for HRS, the opportunities it offers and the challenges it faces.

The search for living worlds and the connection to our cosmic origins

Experimental Astronomy Springer 54:2-3 (2021) 1275-1306

Authors:

Ma Barstow, S Aigrain, Jk Barstow, M Barthelemy, B Biller, A Bonanos, L Buchhave, Sl Casewell, C Charbonnel, S Charlot, R Davies, N Devaney, C Evans, M Ferrari, L Fossati, B Gansicke, M Garcia, de Castro AI Gomez, T Henning, C Lintott, C Knigge, C Neiner, L Rossi, C Snodgrass, D Stam, E Tolstoy, M Tosi

Abstract:

One of the most exciting scientific challenges is to detect Earth-like planets in the habitable zones of other stars in the galaxy and search for evidence of life. During the past 20 years the detection of exoplanets, orbiting stars beyond our own, has moved from science fiction to science fact. From the first handful of gas giants, found through radial velocity studies, detection techniques have increased in sensitivity, finding smaller planets and diverse multi-planet systems. Through enhanced ground-based spectroscopic observations, transit detection techniques and the enormous productivity of the Kepler space mission, the number of confirmed planets has increased to more than 2000. Several space missions, including TESS (NASA), now operational, and PLATO (ESA), will extend the parameter space for exoplanet discovery towards the regime of rocky Earth-like planets and take the census of such bodies in the neighbourhood of the Solar System. The ability to observe and characterise dozens of potentially rocky Earth-like planets now lies within the realm of possibility due to rapid advances in key space and imaging technologies and active studies of potential missions have been underway for a number of years. The latest of these is the Large UV Optical IR space telescope (LUVOIR), one of four flagship mission studies commissioned by NASA in support of the 2020 US Decadal Survey. LUVOIR, if selected, will be of interest to a wide scientific community and will be the only telescope capable of searching for and characterizing a sufficient number of exo-Earths to provide a meaningful answer to the question “Are we alone?”. This contribution is a White Paper that has been submitted in response to the ESA Voyage 2050 Call.

The HETDEX Instrumentation: Hobby-Eberly Telescope Wide Field Upgrade and VIRUS

(2021)

Authors:

Gary J Hill, Hanshin Lee, Phillip J MacQueen, Andreas Kelz, Niv Drory, Brian L Vattiat, John M Good, Jason Ramsey, Herman Kriel, Trent Peterson, DL DePoy, Karl Gebhardt, JL Marshall, Sarah E Tuttle, Svend M Bauer, Taylor S Chonis, Maximilian H Fabricius, Cynthia Froning, Marco Haeuser, Briana L Indahl, Thomas Jahn, Martin Landriau, Ron Leck, Francesco Montesano, Travis Prochaska, Jan M Snigula, Gregory R Zeimann, Randy Bryant, George Damm, JR Fowler, Steven Janowiecki, Jerry Martin, Emily Mrozinski, Stephen Odewahn, Sergey Rostopchin, Matthew Shetrone, Renny Spencer, Erin Mentuch Cooper, Taft Armandroff, Ralf Bender, Gavin Dalton, Ulrich Hopp, Eiichiro Komatsu, Harald Nicklas, Lawrence W Ramsey, Martin M Roth, Donald P Schneider, Chris Sneden, Matthias Steinmetz