Euclid. III. The NISP instrument

The Near-Infrared Spectrometer and Photometer (NISP) on board the satellite provides multiband photometry and $R slitless grism spectroscopy in the 950--2020\,nm wavelength range. In this reference article, we illuminate the background of NISP's functional and calibration requirements, describe...

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Published in:Astronomy and astrophysics (Berlin) 2024-08
Main Authors: Schirmer, M., Maciaszek, T., Corcione, L., Dusini, S., Martin, L., Padilla, C., Toledo-Moreo, R., Trifoglio, M., Bender, R., Castander, F.J., Andersen, M.I., Boenke, T., Gimenez, J.-L., Hornstrup, A., Lloro, I., Mellier, Y., Secroun, A., Seiffert, M., Colodro-Conde, C., D'Alessandro, M., Di Ferdinando, D., Ferrari, A.G., Macias-Perez, J., Scodeggio, M., Altieri, B., Andreon, S., Appleton, P.N., Aussel, H., Baccigalupi, C., Branchini, E., Chabaud, P.-Y., Congedo, G., Cuby, J.-G., Da Silva, A., De Lucia, G., Di Giorgio, A.M., Dinis, J., Dubath, F., Dupac, X., Farina, M., Kermiche, S., K\"ummel, M., Kurki-Suonio, H., Lindholm, V., Maino, D., Markovic, K., Martinet, N., Meylan, G., Nutma, T., Rottgering, H.J.A., Rusholme, B., Sakr, Z., Sanchez, A.G., Scaramella, R., i, Tavagnacco, D., Taylor, A.N., Vassallo, T., Vibert, D., Bolzonella, M., Casenove, P., Fabbian, G., Liu, C., Akrami, Y., Cabanac, R., Calabro, A., Cappi, A., Carvalho, C.S., Colbert, J., Cooray, A.R., Cucciati, O., De Caro, B., Escoffier, S., Hall, A., Ilbert, O., Kajava, J.E., Karagiannis, D., Kirkpatrick, C., Le Brun, V., Loureiro, A., Maurin, L., Miluzio, M., Moretti, C., Rocci, P.-F., Rollins, R.P., Schaye, J., Shankar, F., Stadel, J., Stanford, S.A., Tao, C., Vielzeuf, P., Bennett, C.L., Bouvard, T., Caro, F., Fang, Y., Kova, I., Montoro, A., Paoletti, D., Radovich, M., Viitanen, A.
Format: Article
Language:English
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Summary:The Near-Infrared Spectrometer and Photometer (NISP) on board the satellite provides multiband photometry and $R slitless grism spectroscopy in the 950--2020\,nm wavelength range. In this reference article, we illuminate the background of NISP's functional and calibration requirements, describe the instrument's integral components, and provide all its key properties. We also sketch the processes needed to understand how NISP operates and is calibrated as well as its technical potentials and limitations. Links to articles providing more details and the technical background are included. The NISP's 16 H2RG detectors with a plate scale of $ deliver a field of view of 0.57\,deg$^2$. In photometric mode, NISP reaches a limiting magnitude of sim \,24.5\,AB\,mag in three photometric exposures of about 100\,s in exposure time for point sources and with a S/N of five. For spectroscopy, NISP's point-source sensitivity is a SNR = 3.5 detection of an emission line with flux sim \,$2 $ integrated over two resolution elements of 13.4\ in 3times 560\,s grism exposures at 1.6\ (redshifted Halpha ). Our calibration includes on-ground and in-flight characterisation and monitoring of the pixel-based detector baseline, dark current, non-linearity, and sensitivity to guarantee a relative photometric accuracy better than 1.5 and a relative spectrophotometry better than 0.7. The wavelength calibration must be accurate to 5\ or better. The NISP is the state-of-the-art instrument in the near-infrared for all science beyond small areas available from HST and JWST -- and it represents an enormous advance from any existing instrumentation due to its combination of field size and high throughput of telescope and instrument. During six-year survey covering 14\,000\,deg$^2$ of extragalactic sky, NISP will be the backbone in determining distances of more than a billion galaxies. Its near-infrared data will become a rich reference imaging and spectroscopy data set for the coming decades.
ISSN:0004-6361
1432-0746
DOI:10.1051/0004-6361/202450786