TIFR Near Infrared Imaging Camera-II on the 3.6-m Devasthal Optical Telescope

TL;DR

The paper presents the performance and capabilities of the TIFR Near Infrared Imaging Camera-II on the 3.6-m Devasthal Optical Telescope, highlighting its sensitivity, observational depth, and potential scientific applications in near-infrared astronomy.

Contribution

This work provides the first detailed performance evaluation of the TIFR NIR camera-II on the Devasthal Telescope, demonstrating its suitability for deep near-infrared observations and bright source imaging.

Findings

Camera achieves sub-arcsecond seeing in near-infrared bands.

Capable of deep observations comparable to 4-m class telescopes.

Effective for bright source observations up to WISE W1-band magnitude 9.2.

Abstract

TIFR Near Infrared Imaging Camera-II is a closed-cycle Helium cryo-cooled imaging camera equipped with a Raytheon 512 x 512 pixels InSb Aladdin III Quadrant focal plane array having sensitivity to photons in the 1-5 microns wavelength band. In this paper, we present the performance of the camera on the newly installed 3.6-m Devasthal Optical Telescope (DOT) based on the calibration observations carried out during 2017 May 11-14 and 2017 October 7-31. After the preliminary characterization, the camera has been released to the Indian and Belgian astronomical community for science observations since 2017 May. The camera offers a field-of-view of ~86.5 arcsec x 86.5 arcsec on the DOT with a pixel scale of 0.169 arcsec. The seeing at the telescope site in the near-infrared bands is typically sub-arcsecond with the best seeing of ~0.45 arcsec realized in the near-infrared K-band on 2017 October 16. The camera is found to be capable of deep observations in the J, H and K bands comparable to other 4-m class telescopes available world-wide. Another highlight of this camera is the observational capability for sources up to Wide-field Infrared Survey Explorer (WISE) W1-band (3.4 microns) magnitudes of 9.2 in the narrow L-band (nbL; lambda_{cen} ~3.59 microns). Hence, the camera could be a good complementary instrument to observe the bright nbL-band sources that are saturated in the Spitzer-Infrared Array Camera ([3.6] <= 7.92 mag) and the WISE W1-band ([3.4] <= 8.1 mag). Sources with strong polycyclic aromatic hydrocarbon (PAH) emission at 3.3 microns are also detected. Details of the observations and estimated parameters are presented in this paper.