Spectroscopic Time Series Performance of the Mid-infrared Instrument on the JWST

Spectroscopic Time Series Performance of the Mid-infrared Instrument on the JWST

We present here the first ever mid-infrared spectroscopic time series observation of the transiting exoplanet L 168-9 b with the Mid-Infrared Instrument (MIRI) on the James Webb Space Telescope. The data were obtained as part of the MIRI commissioning activities, to characterize the performance of t...

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Veröffentlicht in:Publications of the Astronomical Society of the Pacific 2023-03, Vol.135 (1045), p.38002
Hauptverfasser: Bouwman, Jeroen, Kendrew, Sarah, Greene, Thomas P., Bell, Taylor J., Lagage, Pierre-Olivier, Schreiber, Jürgen, Dicken, Daniel, Sloan, G. C., Espinoza, Néstor, Scheithauer, Silvia, Coulais, Alain, Fox, Ori D., Gastaud, René, Glauser, Adrian M., Jones, Olivia C., Labiano, Alvaro, Lahuis, Fred, Morrison, Jane E., Murray, Katherine, Mueller, Michael, Nayak, Omnarayani, Wright, Gillian S., Glasse, Alistair, Rieke, George
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Astronomical instrumentation
Calibration
Extrasolar planets
Space observatories
Space telescopes
Spectroscopy
Time series
Transits
Wavelengths
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container_issue 1045
container_start_page 38002
container_title Publications of the Astronomical Society of the Pacific
container_volume 135
creator Bouwman, Jeroen
Kendrew, Sarah
Greene, Thomas P.
Bell, Taylor J.
Lagage, Pierre-Olivier
Schreiber, Jürgen
Dicken, Daniel
Sloan, G. C.
Espinoza, Néstor
Scheithauer, Silvia
Coulais, Alain
Fox, Ori D.
Gastaud, René
Glauser, Adrian M.
Jones, Olivia C.
Labiano, Alvaro
Lahuis, Fred
Morrison, Jane E.
Murray, Katherine
Mueller, Michael
Nayak, Omnarayani
Wright, Gillian S.
Glasse, Alistair
Rieke, George
description We present here the first ever mid-infrared spectroscopic time series observation of the transiting exoplanet L 168-9 b with the Mid-Infrared Instrument (MIRI) on the James Webb Space Telescope. The data were obtained as part of the MIRI commissioning activities, to characterize the performance of the Low Resolution Spectroscopy (LRS) mode for these challenging observations. To assess the MIRI LRS performance, we performed two independent analyses of the data. We find that with a single transit observation we reached a spectro-photometric precision of ∼50 ppm in the 7–8 μ m range at R = 50, consistent with ∼25 ppm systematic noise. The derived band averaged transit depth is 524 ± 15 ppm and 547 ± 13 ppm for the two applied analysis methods, respectively, recovering the known transit depth to within 1 σ . The measured noise in the planet’s transmission spectrum is approximately 15%–20% higher than random noise simulations over wavelengths 6.8 ≲ λ ≲ 11 μ m. We observed an larger excess noise at the shortest wavelengths of up to a factor of two, for which possible causes are discussed. This performance was achieved with limited in-flight calibration data, demonstrating the future potential of MIRI for the characterization of exoplanet atmospheres.
doi_str_mv 10.1088/1538-3873/acbc49
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subjects Astronomical instrumentation
Calibration
Extrasolar planets
Space observatories
Space telescopes
Spectroscopy
Time series
Transits
Wavelengths
title Spectroscopic Time Series Performance of the Mid-infrared Instrument on the JWST
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