This article provides instructions for filling out the JWST NIRISS wide field slitless spectroscopy APT template.


Main article: NIRISS Wide Field Slitless Spectroscopy
See also: NIRISS WFSS Recommended Strategies, NIRISS WFSS Science Use Case, NIRISS GR150 Grisms

Wide field slitless spectroscopy (WFSS) is one of 4 observing modes available with the Near Infrared Imager and Slitless Spectrograph (NIRISS). The WFSS mode is used for low-resolution (R ≈ 150) multi-object spectroscopy of sources over the full 2.2' × 2.2' NIRISS field of view. This mode uses a pair of identical grisms (GR150R, GR150C) that are mounted orthogonally to each other in the filter wheel and cover the wavelength range from 0.8 to 2.2 μm. The relative dispersion directions are perpendicular to each other, allowing blended spectra to be disentangled in crowded fields. Individual WFSS grism exposures are performed with a filter in the pupil wheel (PW) to (1) select the wavelength range of interest, and (2) reduce blending spectra in different wavelength regions from objects throughout the fieldObtaining spectral coverage across the full 0.8–2.2 μm bandpass requires separate exposures in the adjacent filters.

Each WFSS observation will consist of one or more Exposures in APT that include: 1) direct imaging and 2) dithered grism exposures using the same PW filter as the direct image. The direct imaging enables identification of objects in the grism image and calibration of the absolute wavelength zeropoint for grism spectra of each object in the field. One direct image will be taken at the first dither position and a final one at the last dither position. Since the NIRISS point spread function (PSF) is under-sampled over the WFSS wavelength range, dithering will be required for WFSS observations. 

The observer will have control over 3 primary parameters for NIRISS WFSS: 1) filter for direct and grism images, 2) dithering pattern, and 3) detector readout mode and exposure time (via the number of groups and integrations). Allowed values are documented in the NIRISS WFSS Template parameters article.


Step-by-step APT instructions

Science observation


        Main article: NIRISS WFSS Dithers
 See also: NIRISS Dithers 

Choose the NIRISS WFSS dither pattern. The dither offsets are large enough to ensure that a compact source does not fall on the same pixel twice, but not so large as to be affected by distortion across the detector.


  • IMAGE DITHERS: number of steps, where the first step corresponds to initial pointing; allowed values are 2, 3, 4, 6, 8, 12, 16
  • PATTERN SIZE: amplitude of dither step; allowed values are SMALL (≈0.3")MEDIUM (≈0.6")and LARGE (≈1.2")


        Main Article: NIRISS Wide Field Slitless Spectroscopy
See Also: NIRISS GR150 Grisms, NIRISS Filters, NIRISS Detector Readout Patterns 


  • FILTERF090WF115WF140MF150WF158MF200W
    • NISRAPID: all frames are read and storedGenerally this can be used if the number of frames per integration is small and the data volume is not an issue. There is a limit of 30 on the number of groups per ramp in NISRAPID read out.
    • NIS: four frames are averaged per group. Used for producing a lower data rate for longer integrations of faint targets. 
  • NO. OF GROUPSthe number of groups during an integration, equal to the number of frames read per integration (for NISRAPID), or the number of frames read out divided by 4 (for NIS).
  • NO. OF INTEGRATIONS:  the number of integrations during an exposure, where an integration is the time between detector resets.

To take observations in different filters, Add additional observations and specify the appropriate filter. This option will by default add a corresponding direct image for the new grism observation in the Direct Image Exposure Parameters dialog box.

Direct image exposure parameters

A direct image will be taken before and after each set of dithered grism observations. In the case where both grisms are used with the same filter, two direct images are taken when switching between grisms, one at the dither position of the last exposure from the first set and another at the dither position of the first exposure from the second set.

Direct images

        Main article: NIRISS Imaging
         See also: NIRISS Detector Readout Patterns  

Specify choice of the following parameters, whose meanings are identical to the descriptions above:


The FILTER of the direct image will by default match the FILTER specified for the corresponding grism image in Science Observation

All exposures display


The All Exposures Display dialog box will show the sequence of observations for each science observation specified in the Science Observation dialog box. If BOTH grisms are selected in the Science Observation dialog box, the exposure sequence for that observation will be DIRECT → N × GRISM → 2 × DIRECT → N × GRISM → DIRECT, where all exposures in this sequence will have the same exposure number and N refers to the number of dithered grism exposures as specified in the IMAGE DITHERS parameter. Note: fields can not be edited in the All Exposures Display dialog box, but must be edited in the Science Observation and Direct Image Exposure Parameters dialog boxes. Changes to these parameters will be propagated to All Exposures Display.


Other tabs

Mosaic properties

The NIRISS WFSS mode can be used to obtain data for a region larger than the field-of-view by creating a mosaic pattern. Mosaics are required to ensure that complete spectra are obtained over the full 2.2' x 2.2' NIRISS FOV, as specified on the NIRISS Mosaics article. Visit the Mosaic Parameters article for information on setting up a mosaic.

Special requirements

A variety of observatory level special requirements may be chosen.



Related links

JWST User Documentation Home


Near Infrared Imager and Slitless Spectrograph, NIRISS
NIRISS Overview
NIRISS Wide Field Slitless Spectroscopy
NIRISS GR150 Grisms
NIRISS Filters

NIRISS Operations

NIRISS Mosaics 

NIRISS Detector 

JWST Detector MULTIACCUM Integration
NIRISS Detector Readout Patterns

NIRISS Performance 

NIRISS Sensitivity
NIRISS Bright Limits

Recommended Strategies

NIRISS WFSS Recommended Strategies

NIRISS WFSS Science Use Cases

NIRISS WFSS and NIRCam Imaging of Galaxies Within Lensing Clusters

JWST Observing Methods

JWST Slitless Spectroscopy
JWST Parallel Observations 

Astronomer's Proposal Tool

JWST Astronomers Proposal Tool Overview
JWST APT Coordinated Parallel Observations
JWST APT Mosaic Planning
NIRISS WFSS Template Parameters 

Exposure Time Calculator

JWST Exposure Time Calculator Overview


JWST technical documents

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Last updated

Published May 1, 2017


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Published March 2, 2017