Photometry and performance of SPECULOOS-South

C. A. Murray; L. Delrez; P. P. Pedersen; D. Queloz; M. Gillon; A. Burdanov; E. Ducrot; L. J. Garcia; F. Lienhard; B. O. Demory; E. Jehin; J. McCormac; D. Sebastian; S. Sohy; S. J. Thompson; A. H. M. J. Triaud; V. V. Grootel; M. N. Günther; C. X. Huang

doi:10.1093/mnras/staa1283

Photometry and performance of SPECULOOS-South

C. A. Murray, L. Delrez, P. P. Pedersen, D. Queloz, M. Gillon, A. Burdanov, E. Ducrot, L. J. Garcia, F. Lienhard, B. O. Demory, E. Jehin, J. McCormac, D. Sebastian, S. Sohy, S. J. Thompson, A. H. M. J. Triaud, V. V. Grootel, M. N. Günther, C. X. Huang

Physics and Astronomy

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Abstract

SPECULOOS-South, an observatory composed of four independent 1m robotic telescopes, located at ESO Paranal, Chile, started scientific operation in January 2019. This Southern Hemisphere facility operates as part of SPECULOOS, an international network of 1m-class telescopes surveying for transiting terrestrial planets around the nearest and brightest ultra-cool dwarfs. To automatically and efficiently process the observations of SPECULOOS-South, and to deal with the specialised photometric requirements of ultra-cool dwarf targets, we present our automatic pipeline. This pipeline includes an algorithm for automated differential photometry and an extensive correction technique for the effects of telluric water vapour, using ground measurements of the precipitable water vapour. Observing very red targets in the near-infrared can result in photometric systematics in the differential lightcurves, related to the temporally-varying, wavelength-dependent opacity of the Earth's atmosphere. These systematics are sufficient to affect the daily quality of the lightcurves, the longer time-scale variability study of our targets and even mimic transit-like signals. Here we present the implementation and impact of our water vapour correction method. Using the 179 nights and 98 targets observed in the I+z' filter by SPECULOOS-South since January 2019, we show the impressive photometric performance of the facility (with a median precision of ~1.5 mmag for 30-min binning of the raw, non-detrended lightcurves) and assess its detection potential. We compare simultaneous observations with SPECULOOS-South and TESS, to show that we readily achieve high-precision, space-level photometry for bright, ultra-cool dwarfs, highlighting SPECULOOS-South as the first facility of its kind.

Original language	English
Pages (from-to)	2446–2457
Number of pages	12
Journal	Monthly Notices of the Royal Astronomical Society
Volume	495
Issue number	2
Early online date	8 May 2020
DOIs	https://doi.org/10.1093/mnras/staa1283
Publication status	Published - Jun 2020

Bibliographical note

Accepted for publication in MNRAS, 13 pages, 12 figures, 1 table

Keywords

astro-ph.EP
astro-ph.IM
astro-ph.SR
atmospheric effects
planets and satellites: detection
techniques: photometric

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Murray_et_al_Photometry_and_performance_of_SPECULOOS_South_Monthly_Notices_of_the_Royal_Astronomical_Society_2020
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society ©: 2020 The Author(s). Published by Oxford University Press on behalf of the Royal Astronomical Society. All rights reserved.
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Cite this

Murray, C. A., Delrez, L., Pedersen, P. P., Queloz, D., Gillon, M., Burdanov, A., Ducrot, E., Garcia, L. J., Lienhard, F., Demory, B. O., Jehin, E., McCormac, J., Sebastian, D., Sohy, S., Thompson, S. J., Triaud, A. H. M. J., Grootel, V. V., Günther, M. N., & Huang, C. X. (2020). Photometry and performance of SPECULOOS-South. Monthly Notices of the Royal Astronomical Society, 495(2), 2446–2457. Advance online publication. https://doi.org/10.1093/mnras/staa1283

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title = "Photometry and performance of SPECULOOS-South",

abstract = "SPECULOOS-South, an observatory composed of four independent 1m robotic telescopes, located at ESO Paranal, Chile, started scientific operation in January 2019. This Southern Hemisphere facility operates as part of SPECULOOS, an international network of 1m-class telescopes surveying for transiting terrestrial planets around the nearest and brightest ultra-cool dwarfs. To automatically and efficiently process the observations of SPECULOOS-South, and to deal with the specialised photometric requirements of ultra-cool dwarf targets, we present our automatic pipeline. This pipeline includes an algorithm for automated differential photometry and an extensive correction technique for the effects of telluric water vapour, using ground measurements of the precipitable water vapour. Observing very red targets in the near-infrared can result in photometric systematics in the differential lightcurves, related to the temporally-varying, wavelength-dependent opacity of the Earth's atmosphere. These systematics are sufficient to affect the daily quality of the lightcurves, the longer time-scale variability study of our targets and even mimic transit-like signals. Here we present the implementation and impact of our water vapour correction method. Using the 179 nights and 98 targets observed in the I+z' filter by SPECULOOS-South since January 2019, we show the impressive photometric performance of the facility (with a median precision of ~1.5 mmag for 30-min binning of the raw, non-detrended lightcurves) and assess its detection potential. We compare simultaneous observations with SPECULOOS-South and TESS, to show that we readily achieve high-precision, space-level photometry for bright, ultra-cool dwarfs, highlighting SPECULOOS-South as the first facility of its kind. ",

keywords = "astro-ph.EP, astro-ph.IM, astro-ph.SR, atmospheric effects, planets and satellites: detection, techniques: photometric",

author = "Murray, {C. A.} and L. Delrez and Pedersen, {P. P.} and D. Queloz and M. Gillon and A. Burdanov and E. Ducrot and Garcia, {L. J.} and F. Lienhard and Demory, {B. O.} and E. Jehin and J. McCormac and D. Sebastian and S. Sohy and Thompson, {S. J.} and Triaud, {A. H. M. J.} and Grootel, {V. V.} and G{\"u}nther, {M. N.} and Huang, {C. X.}",

note = "Accepted for publication in MNRAS, 13 pages, 12 figures, 1 table",

year = "2020",

month = jun,

doi = "10.1093/mnras/staa1283",

language = "English",

volume = "495",

pages = "2446–2457",

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Murray, CA, Delrez, L, Pedersen, PP, Queloz, D, Gillon, M, Burdanov, A, Ducrot, E, Garcia, LJ, Lienhard, F, Demory, BO, Jehin, E, McCormac, J, Sebastian, D, Sohy, S, Thompson, SJ, Triaud, AHMJ, Grootel, VV, Günther, MN & Huang, CX 2020, 'Photometry and performance of SPECULOOS-South', Monthly Notices of the Royal Astronomical Society, vol. 495, no. 2, pp. 2446–2457. https://doi.org/10.1093/mnras/staa1283

TY - JOUR

T1 - Photometry and performance of SPECULOOS-South

AU - Murray, C. A.

AU - Delrez, L.

AU - Pedersen, P. P.

AU - Queloz, D.

AU - Gillon, M.

AU - Burdanov, A.

AU - Ducrot, E.

AU - Garcia, L. J.

AU - Lienhard, F.

AU - Demory, B. O.

AU - Jehin, E.

AU - McCormac, J.

AU - Sebastian, D.

AU - Sohy, S.

AU - Thompson, S. J.

AU - Triaud, A. H. M. J.

AU - Grootel, V. V.

AU - Günther, M. N.

AU - Huang, C. X.

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AB - SPECULOOS-South, an observatory composed of four independent 1m robotic telescopes, located at ESO Paranal, Chile, started scientific operation in January 2019. This Southern Hemisphere facility operates as part of SPECULOOS, an international network of 1m-class telescopes surveying for transiting terrestrial planets around the nearest and brightest ultra-cool dwarfs. To automatically and efficiently process the observations of SPECULOOS-South, and to deal with the specialised photometric requirements of ultra-cool dwarf targets, we present our automatic pipeline. This pipeline includes an algorithm for automated differential photometry and an extensive correction technique for the effects of telluric water vapour, using ground measurements of the precipitable water vapour. Observing very red targets in the near-infrared can result in photometric systematics in the differential lightcurves, related to the temporally-varying, wavelength-dependent opacity of the Earth's atmosphere. These systematics are sufficient to affect the daily quality of the lightcurves, the longer time-scale variability study of our targets and even mimic transit-like signals. Here we present the implementation and impact of our water vapour correction method. Using the 179 nights and 98 targets observed in the I+z' filter by SPECULOOS-South since January 2019, we show the impressive photometric performance of the facility (with a median precision of ~1.5 mmag for 30-min binning of the raw, non-detrended lightcurves) and assess its detection potential. We compare simultaneous observations with SPECULOOS-South and TESS, to show that we readily achieve high-precision, space-level photometry for bright, ultra-cool dwarfs, highlighting SPECULOOS-South as the first facility of its kind.

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KW - astro-ph.IM

KW - astro-ph.SR

KW - atmospheric effects

KW - planets and satellites: detection

KW - techniques: photometric

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Photometry and performance of SPECULOOS-South

Abstract

Bibliographical note

Keywords

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