J and H band sky brightness measurements from polar day to polar night at Dome A, Antarctica
Abstract
The near-infrared (NIR) sky brightness is a fundamental parameter for evaluating the performance of ground-based infrared observatories. Dome~A on the Antarctic plateau offers exceptional atmospheric conditions, yet its NIR sky background has not been continuously monitored. We present the first continuous J/H-band measurements of the sky background at Dome~A from polar day to polar night, and characterize their median levels and temporal variability. The Antarctic Infrared Binocular Telescope (AIRBT), operating in the J and H bands, obtained continuous fixed-pointing observations from February to May 2024, which were used to measure the NIR sky background. The median sky brightness is 5.2/2.9 and 15.3/13.4~mag~arcsec-2 in J/H bands during daytime and nighttime, respectively. The twilight--nighttime boundaries occur at solar elevations of -9.3 in J and -7.4 in H. At the same solar elevation, the NIR sky background during the polar night is darker by about 0.1 and 0.4~mag~arcsec-2 in the J and H bands compared with the period of regular day--night alternation. During the polar-night period, the nighttime sky brightness in the H band shows a more evident association with the sunspot number, while the corresponding trend in the J band is weaker. These results reveal systematic differences in sky background between polar and non-polar environments and between polar night and regular day--night cycles. The measured sky brightness may be elevated, as the observations were conducted near solar maximum, highlighting the importance of long-term monitoring across the solar cycle.
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