Calibration and Performance of the NIKA2 camera at the IRAM 30-meter Telescope

Abstract

NIKA2 is a dual-band millimetric continuum camera of 2900 Kinetic Inductance Detectors (KID), operating at 150 and 260\,GHz, installed at the IRAM 30-meter telescope. We present the performance assessment of NIKA2 after one year of observation using a dedicated point-source calibration method, referred to as the baseline method. Using a large data set acquired between January 2017 and February 2018 that span the whole range of observing elevations and atmospheric conditions encountered at the IRAM 30-m telescope, we test the stability of the performance parameters. We report an instantaneous field of view (FOV) of 6.5' in diameter, filled with an average fraction of 84\% and 90\% of valid detectors at 150 and 260\,GHz, respectively. The beam pattern is characterized by a FWHM of 17.6'' 0.1'' and 11.1'' 0.2'', and a beam efficiency of 77\% 2\% and 55\% 3\% at 150 and 260\,GHz, respectively. The rms calibration uncertainties are about 3\% at 150\,GHz and 6\% at 260\,GHz. The absolute calibration uncertainties are of 5\% and the systematic calibration uncertainties evaluated at the IRAM 30-m reference Winter observing conditions are below 1\% in both channels. The noise equivalent flux density (NEFD) at 150 and 260\,GHz are of 9 1\, mJy· s1/2 and 30 3\, mJy· s1/2. This state-of-the-art performance confers NIKA2 with mapping speeds of 1388 174 and 111 11 \,arcmin2· mJy-2· h-1 at 150 and 260\,GHz. With these unique capabilities of fast dual-band mapping at high (better that 18'') angular resolution, NIKA2 is providing an unprecedented view of the millimetre Universe.