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Photometry of outer Solar System objects from the Dark Energy Survey I: photometric methods, light curve distributions and trans-Neptunian binaries

Photometry of outer Solar System objects from the Dark Energy Survey I: photometric methods, light curve distributions and trans-Neptunian binaries
Photometry of outer Solar System objects from the Dark Energy Survey I: photometric methods, light curve distributions and trans-Neptunian binaries
We report the methods of and initial scientific inferences from the extraction of precision photometric information for the >800 trans-Neptunian objects (TNOs) discovered in the images of the Dark Energy Survey (DES). Scene-modelling photometry is used to obtain shot-noise-limited flux measures for each exposure of each TNO, with background sources subtracted. Comparison of double-source fits to the pixel data with single-source fits are used to identify and characterize two binary TNO systems. A Markov Chain Monte Carlo method samples the joint likelihood of the intrinsic colors of each source as well as the amplitude of its flux variation, given the time series of multiband flux measurements and their uncertainties. A catalog of these colors and light curve amplitudes A is included with this publication. We show how to assign a likelihood to the distribution q(A) of light curve amplitudes in any subpopulation. Using this method, we find decisive evidence (i.e. evidence ratio <0.01) that cold classical (CC) TNOs with absolute magnitude 6<Hr<8.2 are more variable than the hot classical (HC) population of the same Hr, reinforcing theories that the former form in situ and the latter arise from a different physical population. Resonant and scattering TNOs in this Hr range have variability consistent with either the HC's or CC's. DES TNOs with Hr<6 are seen to be decisively less variable than higher-Hr members of any dynamical group, as expected. More surprising is that detached TNOs are decisively less variable than scattering TNOs, which requires them to have distinct source regions or some subsequent differential processing.
astro-ph.EP, astro-ph.IM
Bernardinelli, P.H.
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Bernstein, G.M.
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Annis, J.
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Bacon, D.
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Bertin, E.
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Brooks, D.
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Rosell, A. Carnero
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Kind, M. Carrasco
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Carretero, J.
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Friedel, D.
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Frieman, J.
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García-Bellido, J.
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Gruen, D.
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Hinton, S.R.
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James, D.J.
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Kuehn, K.
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Mena-Fernández, J.
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Menanteau, F.
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Miquel, R.
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Pieres, A.
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Plazas Malagón, A.A.
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Raveri, M.
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Sanchez, E.
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Sevilla-Noarbe, I.
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Smith, M.
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Suchyta, E.
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To, C.
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Walker, A.R.
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Wiseman, P.
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Zhang, Y.
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The Dark Energy Survey Collaboration
Bernardinelli, P.H.
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Bernstein, G.M.
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Andrade-Oliveira, F.
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Annis, J.
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Bacon, D.
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Bertin, E.
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Brooks, D.
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Burke, D.L.
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Rosell, A. Carnero
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Carretero, J.
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Pereira, M.E.S.
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Davis, T.M.
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Ferrero, I.
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Friedel, D.
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Frieman, J.
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García-Bellido, J.
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Giannini, G.
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Gruen, D.
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Herner, K.
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Hinton, S.R.
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Honscheid, K.
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James, D.J.
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Kuehn, K.
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Mena-Fernández, J.
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Menanteau, F.
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Miquel, R.
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Ogando, R.L.C.
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Pieres, A.
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Plazas Malagón, A.A.
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Raveri, M.
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Sanchez, E.
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Sevilla-Noarbe, I.
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Smith, M.
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Suchyta, E.
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Tarle, G.
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To, C.
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Walker, A.R.
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Wiseman, P.
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Zhang, Y.
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[Unknown type: UNSPECIFIED]

Record type: UNSPECIFIED

Abstract

We report the methods of and initial scientific inferences from the extraction of precision photometric information for the >800 trans-Neptunian objects (TNOs) discovered in the images of the Dark Energy Survey (DES). Scene-modelling photometry is used to obtain shot-noise-limited flux measures for each exposure of each TNO, with background sources subtracted. Comparison of double-source fits to the pixel data with single-source fits are used to identify and characterize two binary TNO systems. A Markov Chain Monte Carlo method samples the joint likelihood of the intrinsic colors of each source as well as the amplitude of its flux variation, given the time series of multiband flux measurements and their uncertainties. A catalog of these colors and light curve amplitudes A is included with this publication. We show how to assign a likelihood to the distribution q(A) of light curve amplitudes in any subpopulation. Using this method, we find decisive evidence (i.e. evidence ratio <0.01) that cold classical (CC) TNOs with absolute magnitude 6<Hr<8.2 are more variable than the hot classical (HC) population of the same Hr, reinforcing theories that the former form in situ and the latter arise from a different physical population. Resonant and scattering TNOs in this Hr range have variability consistent with either the HC's or CC's. DES TNOs with Hr<6 are seen to be decisively less variable than higher-Hr members of any dynamical group, as expected. More surprising is that detached TNOs are decisively less variable than scattering TNOs, which requires them to have distinct source regions or some subsequent differential processing.

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2304.03017v1 - Author's Original
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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e-pub ahead of print date: 6 April 2023
Additional Information: Submitted to AAS journals, data release forthcoming and will be included in journal version
Keywords: astro-ph.EP, astro-ph.IM

Identifiers

Local EPrints ID: 484036
URI: http://eprints.soton.ac.uk/id/eprint/484036
DOI: doi:10.48550/arXiv.2304.03017
PURE UUID: 255ec3b2-f13e-454a-996e-3b7946bad800
ORCID for M. Smith: ORCID iD orcid.org/0000-0002-3321-1432
ORCID for P. Wiseman: ORCID iD orcid.org/0000-0002-3073-1512

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Date deposited: 09 Nov 2023 17:40
Last modified: 12 Nov 2024 02:57

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Contributors

Author: P.H. Bernardinelli
Author: G.M. Bernstein
Author: N. Jindal
Author: T.M.C. Abbott
Author: M. Aguena
Author: F. Andrade-Oliveira
Author: J. Annis
Author: D. Bacon
Author: E. Bertin
Author: D. Brooks
Author: D.L. Burke
Author: A. Carnero Rosell
Author: M. Carrasco Kind
Author: J. Carretero
Author: L.N. da Costa
Author: M.E.S. Pereira
Author: T.M. Davis
Author: S. Desai
Author: H.T. Diehl
Author: P. Doel
Author: S. Everett
Author: I. Ferrero
Author: D. Friedel
Author: J. Frieman
Author: J. García-Bellido
Author: G. Giannini
Author: D. Gruen
Author: K. Herner
Author: S.R. Hinton
Author: D.L. Hollowood
Author: K. Honscheid
Author: D.J. James
Author: K. Kuehn
Author: J. Mena-Fernández
Author: F. Menanteau
Author: R. Miquel
Author: R.L.C. Ogando
Author: A. Pieres
Author: A.A. Plazas Malagón
Author: M. Raveri
Author: E. Sanchez
Author: I. Sevilla-Noarbe
Author: M. Smith ORCID iD
Author: E. Suchyta
Author: G. Tarle
Author: C. To
Author: A.R. Walker
Author: P. Wiseman ORCID iD
Author: Y. Zhang
Corporate Author: The Dark Energy Survey Collaboration

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