TY - JOUR
T1 - Astrometry and Occultation predictions to Trans-Neptunian and Centaur Objects observed within the Dark Energy Survey
AU - Dark Energy Survey Collaboration
AU - Banda-Huarca, Martin
AU - Camargo, Julio
AU - Desmars, Josselin
AU - Ogando, Ricardo
AU - Vieira-Martins, Roberto
AU - Assafin, Marcelo
AU - Costa, Luiz da
AU - Bernstein, Gary
AU - Kind, Matias Carrasco
AU - Wagner, Alex Drlica
AU - Gomes, Rodney
AU - Gysi, Matheus
AU - Ribas, Felipe Braga
AU - Maia, Marcio
AU - Gerdes, David
AU - Hamilton, Stephanie
AU - Wester, William
AU - Abbot, Tim
AU - Abdalla, Filipe
AU - Allam, Sahar
AU - Avila, Santiago
AU - Bertin, Emmanuel
AU - Brooks, David
AU - Buckley-Geer, Elizabeth
AU - Burke, David
AU - Rossell, Aurelio Carnero
AU - Carretero, Jorge
AU - Cunha, Carlos
AU - Davis, Christopher
AU - Vicente, Juan de
AU - Diehl, Thomas
AU - Doel, Peter
AU - Fosalba, Pablo
AU - Frieman, Josh
AU - Garcia-Bellido, Juan
AU - Gaztanaga, Enrique
AU - Gruen, Daniel
AU - Gruendl, Robert
AU - Gschwend, Julia
AU - Gutierrez, Gaston
AU - Hartley, Will
AU - Hollowood, Devon
AU - Honscheid, Klaus
AU - James, David
AU - Kuehn, Kyler
AU - Kuropatkin, Nikolay
AU - Menanteau, Felipe
AU - Miller, Christopher
AU - Miquel, Ramon
AU - Plazas, Andres
N1 - 25 pages, submitted to Astronomical Journal
PY - 2019/2/15
Y1 - 2019/2/15
N2 - Transneptunian objects (TNOs) are a source of invaluable information to access the history and evolution of the outer solar system. However, observing these faint objects is a difficult task. As a consequence, important properties such as size and albedo are known for only a small fraction of them. Now, with the results from deep sky surveys and the Gaia space mission, a new exciting era is within reach as accurate predictions of stellar occultations by numerous distant small solar system bodies become available. From them, diameters with kilometer accuracies can be determined. Albedos, in turn, can be obtained from diameters and absolute magnitudes. We use observations from the Dark Energy Survey (DES) from November 2012 until February 2016, amounting to 4292847 CCD frames. We searched them for all known small solar system bodies and recovered a total of 202 TNOs and Centaurs, 63 of which have been discovered by the DES collaboration until the date of this writing. Their positions were determined using the Gaia Data Release 2 as reference and their orbits were refined. Stellar occultations were then predicted using these refined orbits plus stellar positions from Gaia. These predictions are maintained, and updated, in a dedicated web service. The techniques developed here are also part of an ambitious preparation to use the data from the Large Synoptic Survey Telescope (LSST), that expects to obtain accurate positions and multifilter photometry for tens of thousands of TNOs.
AB - Transneptunian objects (TNOs) are a source of invaluable information to access the history and evolution of the outer solar system. However, observing these faint objects is a difficult task. As a consequence, important properties such as size and albedo are known for only a small fraction of them. Now, with the results from deep sky surveys and the Gaia space mission, a new exciting era is within reach as accurate predictions of stellar occultations by numerous distant small solar system bodies become available. From them, diameters with kilometer accuracies can be determined. Albedos, in turn, can be obtained from diameters and absolute magnitudes. We use observations from the Dark Energy Survey (DES) from November 2012 until February 2016, amounting to 4292847 CCD frames. We searched them for all known small solar system bodies and recovered a total of 202 TNOs and Centaurs, 63 of which have been discovered by the DES collaboration until the date of this writing. Their positions were determined using the Gaia Data Release 2 as reference and their orbits were refined. Stellar occultations were then predicted using these refined orbits plus stellar positions from Gaia. These predictions are maintained, and updated, in a dedicated web service. The techniques developed here are also part of an ambitious preparation to use the data from the Large Synoptic Survey Telescope (LSST), that expects to obtain accurate positions and multifilter photometry for tens of thousands of TNOs.
KW - astro-ph.EP
KW - RCUK
KW - STFC
U2 - 10.3847/1538-3881/aafb37
DO - 10.3847/1538-3881/aafb37
M3 - Article
SN - 0004-637X
VL - 157
JO - The Astrophysical Journal
JF - The Astrophysical Journal
IS - 3
M1 - 120
ER -