Astronomical instrumentation

ROTATION AND WINDS OF EXOPLANET HD 189733 b MEASURED WITH HIGH-DISPERSION TRANSMISSION SPECTROSCOPY

The Astrophysical Journal American Astronomical Society 817:2 (2016) 106

Authors:

M Brogi, RJ de Kok, S Albrecht, IAG Snellen, JL Birkby, H Schwarz

Properties of the Interstellar Medium in Star-Forming Galaxies at z~1.4 revealed with ALMA

(2016)

Authors:

Akifumi Seko, Kouji Ohta, Kiyoto Yabe, Bunyo Hatsukade, Masayuki Akiyama, Fumihide Iwamuro, Naoyuki Tamura, Gavin Dalton

A mid-infrared spectroscopic atlas of local active galactic nuclei on sub-arcsecond resolution using GTC/CanariCam

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 455:1 (2016) 563-583

Authors:

A Alonso-Herrero, P Esquej, PF Roche, C Ramos Almeida, O González-Martín, C Packham, NA Levenson, RE Mason, A Hernán-Caballero, M Pereira-Santaella, C Alvarez, I Aretxaga, E López-Rodríguez, L Colina, T Díaz-Santos, M Imanishi, JM Rodríguez Espinosa, E Perlman

Final design and build progress of WEAVE: the next generation wide-field spectroscopy facility for the William Herschel Telescope

GROUND-BASED AND AIRBORNE INSTRUMENTATION FOR ASTRONOMY VI (2016)

Authors:

Gavin Dalton, S Trager, D Carlos Abrams, P Bonifacio, JAL Aguerrig, K Middleton, C Benn, K Dee, F Sayede, I Lewis, J Pragt, S Pico, N Walton, J Rey, C Allende Prieto, J Penate, E Lhome, T Agocs, J Alonso, D Terrett, M Brock, J Gilbert, E Schallig, A Ridings, I Guinouard, M Verheijen, I Tosh, K Rogers, M Lee, I Steele, R Stuik, N Tromp, A Jasko, E Carrasco, S Farcas, J Kragt, D Lesman, G Kroes, C Mottram, S Bates, F Gribbin, L Fernando Rodriguez, J Miguel Delgado, J Miguel Herreros, C Martin, D Cano, R Navarro, M Irwin, J Lewis, EG Solares

Abstract:

© 2016 SPIE. We present the Final Design of the WEAVE next-generation spectroscopy facility for the William Herschel Telescope (WHT), together with a status update on the details of manufacturing, integration and the overall project schedule now that all the major fabrication contracts are in place. We also present a summary of the current planning behind the 5-year initial phase of survey operations. WEAVE will provide optical ground-based follow up of ground-based (LOFAR) and space-based (Gaia) surveys. WEAVE is a multi-object and multi-IFU facility utilizing a new 2-degree prime focus field of view at the WHT, with a buffered pick-and-place positioner system hosting 1000 multi-object (MOS) fibres, 20 integral field units, or a single large IFU for each observation. The fibres are fed to a single (dual-beam) spectrograph, with total of 16k spectral pixels, located within the WHT GHRIL enclosure on the telescope Nasmyth platform, supporting observations at R∼5000 over the full 370-1000nm wavelength range in a single exposure, or a high resolution mode with limited coverage in each arm at R∼20000. The project is now in the manufacturing and integration phase with first light expected for early of 2018.

Infrared polarimetry of Mrk 231: scattering off hot dust grains in the central core

Monthly Notices of the Royal Astronomical Society Oxford University Press (2016)

Authors:

E Lopez-Rodriguez, C Packham, TJ Jones, R Siebenmorgen, Patrick Roche, NA Levenson, A Alonso-Herrero, E Perlman, K Ichikawa, C Ramos Almeida, O González-Martín, R Nikutta, M Martinez-Paredez, D Shenoy, MS Gordon, CM Telesco

Abstract:

We present high-angular (0.17−0.35 arcsec) resolution imaging polarimetric observations of Mrk 231 in the 3.1 µm filter using MMT-Pol on the 6.5-m MMT, and in the 8.7 µm, 10.3 µm, and 11.6 µm filters using CanariCam on the 10.4-m Gran Telescopio CANARIAS. In combination with already published observations, we compile the 1−12 µm total and polarized nuclear spectral energy distribution (SED). The total flux SED in the central 400 pc is explained as the combination of 1) a hot (731 ± 4 K) dusty structure, directly irradiated by the central engine, which is at 1.6 ± 0.1 pc away and attributed to be in the pc-scale polar region, 2) an optically-thick, smooth and disk-like dusty structure (‘torus’) with an inclination of 48 ± 23◦ surrounding the central engine, and 3) an extinguished (AV = 36 ± 5 mag) starburst component. The polarized SED decreases from 0.77 ± 0.14 per cent at 1.2 µm to 0.31 ± 0.15 per cent at 11.6 µm and follows a power-law function, λ ∼0.57. The polarization angle remains constant (∼108◦ ) in the 1−12 µm wavelength range. The dominant polarization mechanism is explained as scattering off hot dust grains in the pc-scale polar regions.