JWST NIRCam dithers and mosaics are pointing shifts performed between multiple exposures to improve sky coverage and image quality.
Overview of NIRCam dithering and mosaicking capabilities
Parent page: NIRCam Operations
Dithers and mosaics are used to improve data quality primarily for the NIRCam imaging and wide field slitless spectroscopy observing modes. Detailed background information on principles of dithered observations with JWST are described in Koekemoer & Lindsay (2005), Anderson (2009), Anderson (2011), Anderson (2014), and Coe (2017).
In summary, the multiple offset exposures described below mitigate bad pixels and provide the following additional benefits:
- Primary dithers are telescope pointing maneuvers (4"–100") to fill gaps in sky coverage between detectors and mitigate flat field uncertainties.
- Subarray primary dithers are small telescope pointing maneuvers (<0.4") to improve the spatial coverage of the small subarrays.
- Standard subpixel dithers are small telescope pointing maneuvers (0.2"–2") to improve the spatial resolution of stacked images.
- Small grid dithers are very small pointing shifts (<0.06") performed quickly with the fine steering mirror primarily to improve reference PSF subtraction in coronagraphy.
- Mosaics are, typically, large pointing shifts (arcminutes) to tile over areas larger than the NIRCam field of view (5.1' × 2.2').
None of these pointing maneuvers are allowed in either of the NIRCam time-series observing modes.
Dithers and mosaics are distinct in terms of operational ordering. All dither positions must be executed before any filter changes may be executed, and all filter changes are executed before proceeding to the next tile in a mosaic. The following ordered list summarizes this sequence of (mostly optional) operations, also shown graphically in Figure 1:
- Subpixel dither (if any)
- Primary dither (if any)
- Filter change (if any)
- Mosaic tile step (if any)
JWST User Documentation Home
JWST Mosaic Observation Capability
JWST APT Mosaic Planning
NIRCam Coronagraphic Imaging
NIRCam Field of View
NIRCam Primary Dithers
NIRCam Detector Readout Patterns
NIRCam Small Grid Dithers
NIRCam Subpixel Dithers
NIRCam Wide Field Slitless Spectroscopy
Anderson, J. 2009, JWST-STScI-001738
Dither Patterns for NIRCam Imaging
Anderson, J. 2011, JWST-STScI-002199
NIRCam Dithering Strategies I: A Least Squares Approach to Image Combination
Anderson, J., 2014, JWST-STScI-002473
NIRCam Dithering Strategies II: Primaries, Secondaries, and Sampling
Koekemoer, A. M. & Lindsay, K. 2005, JWST-STScI-000647
An Investigation of Optimal Dither Strategies for JWST
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