Please use this identifier to cite or link to this item: http://hdl.handle.net/20.500.12666/233
Title: The nature of point source fringes in mid-infrared spectra acquired with the James Webb Space Telescope
Authors: Argyriou, I.
Wells, M.
Glasse, A.
Lee, D.
Royer, P.
Vandenbussche, B.
Malamuth, E.
Glauser, A.
Kavanagh, P. J.
Labiano, Á.
Lahuis, F.
Mueller, M.
Patapis, P.
Keywords: Instrumentation: detectors;Instrumentation: spectrographs;Methods: data analysis;Infrared: general
Issue Date: 23-Sep-2020
Publisher: EDP Sciences
DOI: 10.1051/0004-6361/202037535
Published version: https://www.aanda.org/articles/aa/full_html/2020/09/aa37535-20/aa37535-20.html
Citation: Astronomy and Astrophysics
Abstract: Context. As is common for infrared spectrometers, the constructive and destructive interference in different layers of the James Webb Space Telescope (JWST) Mid-Infrared Instrument (MIRI) detector arrays modulate the detected signal as a function of wavelength. The resulting “fringing” in the Medium-Resolution Spectrometer (MRS) spectra varies in amplitude between 10% and 30% of the spectral baseline. A common method for correcting for fringes relies on dividing the data by a fringe flat. In the case of MIRI MRS, the fringe flat is derived from measurements of an extended, spatially homogeneous source acquired during the thermal-vacuum ground verification of the instrument. While this approach reduces fringe amplitudes of extended sources below the percent level, at the detector level, point source fringe residuals vary in a systematic way across the point spread function. The effect could hamper the scientific interpretation of MRS observations of unresolved sources, semi-extended sources, and point sources in crowded fields. Aims. We find MIRI MRS point source fringes to be reproducible under similar observing conditions. We want to investigate whether a generic and accurate correction can be determined. Therefore, we want to identify the variables, if they exist, that would allow for a parametrization of the signal variations induced by point source fringe modulations. Methods. We determine the point source fringe properties by analyzing MRS detector plane images acquired on the ground. We extracted the fringe profile of multiple point source observations and studied the amplitude and phase of the fringes as a function of field position and pixel sampling of the point spread function of the optical chain. Results. A systematic variation in the amplitude and phase of the point source fringes is found over the wavelength range covered by the test sources (4.9 − 5.8 μm). The variation depends on the fraction of the point spread function seen by the detector pixel. We identify the non-uniform pixel illumination as the root cause of the reported systematic variation. This new finding allows us to reconcile the point source and extended source fringe patterns observed in test data during ground verification. We report an improvement after correction of 50% on the 1σ standard deviation of the spectral continuum. A 50% improvement is also reported in line sensitivity for a benchmark test with a spectral continuum of 100 mJy. The improvement in the shape of weak lines is illustrated using a T Tauri model spectrum. Consequently, we verify that fringes of extended sources and potentially semi-extended sources and crowded fields can be simulated by combining multiple point source fringe transmissions. Furthermore, we discuss the applicability of this novel fringe-correction method to the MRS data (and the data of other instruments).
URI: http://hdl.handle.net/20.500.12666/233
E-ISSN: 1432-0746
ISSN: 0004-6361
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