KISS: instrument description and performance
J.F Macias-Perez
(1)
,
M Fernandez-Torreiro
(1)
,
A Catalano
(1)
,
A Fasano
(2)
,
M Aguiar
(3)
,
A Beelen
(4)
,
A Benoit
(2)
,
A Bideaud
(2)
,
J Bounmy
(1)
,
O Bourrion
(1)
,
M Calvo
(5)
,
J.A Castro-Almazan
(3)
,
P de Bernardis
(6)
,
M de Petris
(6)
,
A.P de Taoro
(3)
,
G Garde
(5)
,
R.T Genova-Santos
(3)
,
A Gomez
(7)
,
M.F Gomez-Renasco
(3)
,
J Goupy
(2)
,
C Hoarau
(1)
,
R Hoyland
(3)
,
G Lagache
(4)
,
J Marpaud
(1)
,
M Marton
(1)
,
S Masi
(6)
,
A Monfardini
(2)
,
M.W Peel
(3)
,
G Pisano
(8)
,
N Ponthieu
(9)
,
R Rebolo
(3)
,
S Roni
(1)
,
S Roudier
(1)
,
J.A Rubino-Martin
(3)
,
D Tourres
(1)
,
C Tucker
(8)
,
T Viera-Curvelo
(8)
,
C Vescovi
(1)
1
LPSC -
Laboratoire de Physique Subatomique et de Cosmologie
2 NEEL - HELFA - Hélium : du fondamental aux applications
3 IAC - Instituto de Astrofisica de Canarias
4 LAM - Laboratoire d'Astrophysique de Marseille
5 NEEL - Cryo - Cryogénie
6 UNIROMA - Università degli Studi di Roma "La Sapienza" = Sapienza University [Rome]
7 CAB - Centro de Astrobiologia [Madrid]
8 Cardiff University
9 IPAG - Institut de Planétologie et d'Astrophysique de Grenoble
2 NEEL - HELFA - Hélium : du fondamental aux applications
3 IAC - Instituto de Astrofisica de Canarias
4 LAM - Laboratoire d'Astrophysique de Marseille
5 NEEL - Cryo - Cryogénie
6 UNIROMA - Università degli Studi di Roma "La Sapienza" = Sapienza University [Rome]
7 CAB - Centro de Astrobiologia [Madrid]
8 Cardiff University
9 IPAG - Institut de Planétologie et d'Astrophysique de Grenoble
Résumé
Kinetic inductance detectors (KIDs) have been proven as reliable systems for astrophysical observations, especially in the millimetre range. Their compact size enables to optimally fill the focal plane, thus boosting sensitivity. The KISS (KIDs Interferometric Spectral Surveyor) instrument is a millimetre camera that consists of two KID arrays of 316 pixels each coupled to a Martin-Puplett interferometer (MPI). The addition of the MPI grants the KIDs camera the ability to provide spectral information in the 100 and 300 GHz range. In this paper we report the main properties of the KISS instrument and its observations. We also describe the calibration and data analysis procedures used. We present a complete model of the observed data including the sky signal and several identified systematics. We have developed a full photometric and spectroscopic data analysis pipeline that translates our observations into science-ready products. We show examples of the results of this pipeline on selected sources: Moon, Jupiter and Venus. We note the presence of a deficit of response with respect to expectations and laboratory measurements. The detectors noise level is consistent with values obtained during laboratory measurements, pointing to a sub-optimal coupling between the instrument and the telescope as the most probable origin for the problem. This deficit is large enough as to prevent the detection of galaxy clusters, which were KISS main scientific objective. Nevertheless, we have demonstrated the feasibility of this kind of instrument, in the prospect for other KID interferometers (such as the CONCERTO instrument). As this regard, we have developed key instrumental technologies such as optical conception, readout electronics and raw calibration procedures, as well as, adapted data analysis procedures.