TY - JOUR
T1 - Airglow and aurorae at Dome A, Antarctica
AU - Sims, Geoff
AU - Ashley, Michael C. B.
AU - Cui, Xiangqun
AU - Everett, Jon R.
AU - Feng, LongLong
AU - Gong, Xuefei
AU - Hengst, Shane
AU - Hu, Zhongwen
AU - Lawrence, Jon S.
AU - Luong-Van, Daniel M.
AU - Moore, Anna M.
AU - Riddle, Reed
AU - Shang, Zhaohui
AU - Storey, John W. V.
AU - Tothill, Nick
AU - Travouillon, Tony
AU - Wang, Lifan
AU - Yang, Huigen
AU - Yang, Ji
AU - Zhou, Xu
PY - 2012
Y1 - 2012
N2 - Despite the absence of artificial light pollution at Antarctic plateau sites such as Dome A, other factors such as airglow, aurorae, and extended periods of twilight have the potential to adversely affect optical observations. We present a statistical analysis of the airglow and aurorae at Dome A using spectroscopic data from Nigel, an optical/near-IR spectrometer operating in the 300-850 nm range. These data complement photometric images from Gattini, a wide-field (90 degrees) CCD camera with B, V, and R filters, allowing the background sky brightness to be disentangled from the various airglow and auroral emission lines. The median auroral contribution to the B, V, and R photometric bands is found to be 22.9, 23.4, and 23.0 mag arcsec(-2), respectively. Auroral emissions most frequently occur between 10-23 hr local time, when up to 50% of observations are above airglow-level intensities. While infrequent, the strongest emissions detected occurred in the hours just prior to magnetic midnight. We are also able to quantify the amount of annual dark time available as a function of wavelength, as well as in the standard BV R photometric bands. On average, twilight ends when the Sun reaches a zenith distance of 102.6 degrees.
AB - Despite the absence of artificial light pollution at Antarctic plateau sites such as Dome A, other factors such as airglow, aurorae, and extended periods of twilight have the potential to adversely affect optical observations. We present a statistical analysis of the airglow and aurorae at Dome A using spectroscopic data from Nigel, an optical/near-IR spectrometer operating in the 300-850 nm range. These data complement photometric images from Gattini, a wide-field (90 degrees) CCD camera with B, V, and R filters, allowing the background sky brightness to be disentangled from the various airglow and auroral emission lines. The median auroral contribution to the B, V, and R photometric bands is found to be 22.9, 23.4, and 23.0 mag arcsec(-2), respectively. Auroral emissions most frequently occur between 10-23 hr local time, when up to 50% of observations are above airglow-level intensities. While infrequent, the strongest emissions detected occurred in the hours just prior to magnetic midnight. We are also able to quantify the amount of annual dark time available as a function of wavelength, as well as in the standard BV R photometric bands. On average, twilight ends when the Sun reaches a zenith distance of 102.6 degrees.
KW - aurorae
KW - optical observations
KW - airglow
KW - Antarctica
UR - http://handle.uws.edu.au:8081/1959.7/517675
U2 - 10.1086/666861
DO - 10.1086/666861
M3 - Article
SN - 0004-6280
VL - 124
SP - 637
EP - 649
JO - Publications of the Astronomical Society of the Pacific
JF - Publications of the Astronomical Society of the Pacific
IS - 916
ER -