Euclid VI. NISP-P optical ghosts

Euclid Collaboration; E. Gaztanaga; S. Nadathur; K. Naidoo

doi:10.1051/0004-6361/202555106

Euclid VI. NISP-P optical ghosts

Euclid Collaboration
, E. Gaztanaga
, S. Nadathur
, K. Naidoo

Institute of Cosmology & Gravitation

Research output: Contribution to journal › Article › peer-review

Abstract

The Near-Infrared Spectrometer and Photometer (NISP) onboard Euclid includes several optical elements in its path, which introduce artefacts into the data from non-nominal light paths. To ensure uncontaminated source photometry, these artefacts must be accurately accounted for. This paper focuses on two specific optical features in NISP's photometric data (NISP-P): ghosts caused by the telescope's dichroic beamsplitter, and the bandpass filters within the NISP fore-optics. Both ghost types exhibit a characteristic morphology and are offset from the originating stars. The offsets are well modelled using 2D polynomials, with only stars brighter than approximately 10 magnitudes in each filter producing significant ghost contributions. The masking radii for these ghosts depend on both the source-star brightness and the filter wavelength, ranging from 20 to 40 pixels. We present the final relations and models used in the near-infrared (NIR) data pipeline to mask these ghosts for Euclid's Quick Data Release (Q1).

Original language	English
Article number	A226
Number of pages	13
Journal	Astronomy and Astrophysics
Volume	707
DOIs	https://doi.org/10.1051/0004-6361/202555106
Publication status	Published - 17 Mar 2026

Keywords

astro-ph.IM
instrumentation: photometers
space vehicles: instruments

Access to Document

10.1051/0004-6361/202555106

Euclid VIFinal published version, 10.6 MBLicence: CC BY

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title = "Euclid VI. NISP-P optical ghosts",

abstract = "The Near-Infrared Spectrometer and Photometer (NISP) onboard Euclid includes several optical elements in its path, which introduce artefacts into the data from non-nominal light paths. To ensure uncontaminated source photometry, these artefacts must be accurately accounted for. This paper focuses on two specific optical features in NISP's photometric data (NISP-P): ghosts caused by the telescope's dichroic beamsplitter, and the bandpass filters within the NISP fore-optics. Both ghost types exhibit a characteristic morphology and are offset from the originating stars. The offsets are well modelled using 2D polynomials, with only stars brighter than approximately 10 magnitudes in each filter producing significant ghost contributions. The masking radii for these ghosts depend on both the source-star brightness and the filter wavelength, ranging from 20 to 40 pixels. We present the final relations and models used in the near-infrared (NIR) data pipeline to mask these ghosts for Euclid's Quick Data Release (Q1). ",

keywords = "astro-ph.IM, instrumentation: photometers, space vehicles: instruments",

author = "\{Euclid Collaboration\} and Euclid Collaboration and K. Paterson and M. Schirmer and K. Okumura and B. Venemans and K. Jahnke and N. Aghanim and B. Altieri and A. Amara and S. Andreon and C. Baccigalupi and M. Baldi and A. Balestra and S. Bardelli and P. Battaglia and A. Biviano and A. Bonchi and E. Branchini and M. Brescia and J. Brinchmann and S. Camera and G. Ca{\~n}as-Herrera and V. Capobianco and J. Carretero and S. Casas and M. Castellano and G. Castignani and S. Cavuoti and Chambers, \{K. C.\} and A. Cimatti and C. Colodro-Conde and G. Congedo and Conselice, \{C. J.\} and L. Conversi and Y. Copin and F. Courbin and Courtois, \{H. M.\} and Silva, \{A. Da\} and \{da Silva\}, R. and H. Degaudenzi and Lucia, \{G. De\} and Giorgio, \{A. M. Di\} and J. Dinis and K. Markovic and Nichol, \{R. C.\} and Percival, \{W. J.\} and Schewtschenko, \{J. A.\} and E. Gaztanaga and S. Nadathur and K. Naidoo",

note = "13 pages, 10 figures, submitted",

year = "2026",

month = mar,

day = "17",

doi = "10.1051/0004-6361/202555106",

language = "English",

volume = "707",

journal = "Astronomy and Astrophysics",

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T1 - Euclid VI. NISP-P optical ghosts

AU - Euclid Collaboration

AU - Collaboration, Euclid

AU - Paterson, K.

AU - Schirmer, M.

AU - Okumura, K.

AU - Venemans, B.

AU - Jahnke, K.

AU - Aghanim, N.

AU - Altieri, B.

AU - Amara, A.

AU - Andreon, S.

AU - Baccigalupi, C.

AU - Baldi, M.

AU - Balestra, A.

AU - Bardelli, S.

AU - Battaglia, P.

AU - Biviano, A.

AU - Bonchi, A.

AU - Branchini, E.

AU - Brescia, M.

AU - Brinchmann, J.

AU - Camera, S.

AU - Cañas-Herrera, G.

AU - Capobianco, V.

AU - Carretero, J.

AU - Casas, S.

AU - Castellano, M.

AU - Castignani, G.

AU - Cavuoti, S.

AU - Chambers, K. C.

AU - Cimatti, A.

AU - Colodro-Conde, C.

AU - Congedo, G.

AU - Conselice, C. J.

AU - Conversi, L.

AU - Copin, Y.

AU - Courbin, F.

AU - Courtois, H. M.

AU - Silva, A. Da

AU - da Silva, R.

AU - Degaudenzi, H.

AU - Lucia, G. De

AU - Giorgio, A. M. Di

AU - Dinis, J.

AU - Markovic, K.

AU - Nichol, R. C.

AU - Percival, W. J.

AU - Schewtschenko, J. A.

AU - Gaztanaga, E.

AU - Nadathur, S.

AU - Naidoo, K.

N1 - 13 pages, 10 figures, submitted

PY - 2026/3/17

Y1 - 2026/3/17

N2 - The Near-Infrared Spectrometer and Photometer (NISP) onboard Euclid includes several optical elements in its path, which introduce artefacts into the data from non-nominal light paths. To ensure uncontaminated source photometry, these artefacts must be accurately accounted for. This paper focuses on two specific optical features in NISP's photometric data (NISP-P): ghosts caused by the telescope's dichroic beamsplitter, and the bandpass filters within the NISP fore-optics. Both ghost types exhibit a characteristic morphology and are offset from the originating stars. The offsets are well modelled using 2D polynomials, with only stars brighter than approximately 10 magnitudes in each filter producing significant ghost contributions. The masking radii for these ghosts depend on both the source-star brightness and the filter wavelength, ranging from 20 to 40 pixels. We present the final relations and models used in the near-infrared (NIR) data pipeline to mask these ghosts for Euclid's Quick Data Release (Q1).

AB - The Near-Infrared Spectrometer and Photometer (NISP) onboard Euclid includes several optical elements in its path, which introduce artefacts into the data from non-nominal light paths. To ensure uncontaminated source photometry, these artefacts must be accurately accounted for. This paper focuses on two specific optical features in NISP's photometric data (NISP-P): ghosts caused by the telescope's dichroic beamsplitter, and the bandpass filters within the NISP fore-optics. Both ghost types exhibit a characteristic morphology and are offset from the originating stars. The offsets are well modelled using 2D polynomials, with only stars brighter than approximately 10 magnitudes in each filter producing significant ghost contributions. The masking radii for these ghosts depend on both the source-star brightness and the filter wavelength, ranging from 20 to 40 pixels. We present the final relations and models used in the near-infrared (NIR) data pipeline to mask these ghosts for Euclid's Quick Data Release (Q1).

KW - astro-ph.IM

KW - instrumentation: photometers

KW - space vehicles: instruments

U2 - 10.1051/0004-6361/202555106

DO - 10.1051/0004-6361/202555106

M3 - Article

SN - 0004-6361

VL - 707

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

M1 - A226

ER -

Euclid VI. NISP-P optical ghosts

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Keywords

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