error
Kurzer Serviceunterbruch am Donnerstag, 15. Januar 2026, 12 bis 13 Uhr. Sie können in diesem Zeitraum keine neuen Dokumente hochladen oder bestehende Einträge bearbeiten. Das Login wird in diesem Zeitraum deaktiviert. Grund: Wartungsarbeiten // Short service interruption on Thursday, January 15, 2026, 12.00 – 13.00. During this time, you won’t be able to upload new documents or edit existing records. The login will be deactivated during this time. Reason: maintenance work
 

Geometric distortion and astrometric calibration of the JWST MIRI Medium Resolution Spectrometer

OPEN ACCESS

Downloads

Full text (PDF, 5.38 MB)

Author / Producer

Argyriou, Ioannis Law, David R.

Date

2023-07-03

Publication Type

Working Paper

ETH Bibliography

yes

Citations

Altmetric
OPEN ACCESS

Downloads

Full text (PDF, 5.38 MB)

Data

Rights / License

Creative Commons Attribution 4.0 International north_east

Abstract

The Medium-Resolution integral field Spectrometer (MRS) of MIRI on board JWST performs spectroscopy between 5 and 28~$μ$m. The optics of the MRS introduce substantial distortion, and this needs to be rectified in order to reconstruct the observed astrophysical scene. We use data from the JWST/MIRI commissioning and cycle 1 calibration phase, to derive the MRS geometric distortion and astrometric solution, a critical step in the calibration of MRS data. These solutions come in the form of transform matrices that map the detector pixels to spatial coordinates of a local MRS coordinate system called $α$/$β$, to the global JWST observatory coordinates V2/V3. For every MRS spectral band and each slice dispersed on the detector, the transform of detector pixels to $α$/$β$ is fit by a two-dimensional polynomial, using a raster of point source observations. A polynomial transform is used to map the coordinates from $α$/$β$ to V2/V3. We calibrated the distortion of all 198 discrete slices of the MIRI/MRS IFUs, and derived an updated Field of View (FoV) for each MRS spectral band. The precision of the distortion solution is estimated to be better than one tenth of a spatial resolution element, with a root mean square (rms) of 10 milli-arcsecond (mas) at 5 $μ$m, to 23 mas at 27 $μ$m. Finally we find that the wheel positioning repeatability causes an additional astrometric error of rms 30 mas. We have demonstrated the MRS astrometric calibration strategy and analysis enabling the calibration of MRS spectra, a critical step in the data pipeline especially for science with spatially resolved objects. The distortion calibration was folded into the JWST pipeline in Calibration Reference Data System (CRDS) context jwst\_1094.pmap. The distortion calibration precision meets the pre-launch requirement, and the estimated total astrometric uncertainty is 50 mas.

Permanent link

https://doi.org/10.3929/ethz-b-000655783

Publication status

published

External links

Arxiv: 2307.01025 north_east
https://doi.org/10.48550/arXiv.2307.01025 north_east

Editor

Book title

Journal / series

Volume

Pages / Article No.

2307.01025

Publisher

Cornell University

Event

Edition / version

v1

Methods

Software

Geographic location

Date collected

Date created

Subject

Instrumentation and Methods for Astrophysics (astro-ph.IM); Earth and Planetary Astrophysics (astro-ph.EP); Astrophysics of Galaxies (astro-ph.GA); Solar and Stellar Astrophysics (astro-ph.SR); FOS: Physical sciences

Organisational unit

09680 - Quanz, Sascha Patrick / Quanz, Sascha Patrick check_circle

Notes

Submitted to Astronomy & Astrophysics

Funding

Related publications and datasets

Is previous version of:

More

Show all metadata