Wide-field Cameras in the High Arctic

PIs: Nicholas M. Law & Raymond Carlberg

Students: Pegah Salbi, Aida Ahmadi

Arctic observing team: Wayne Ngan, Eric Steinbring

Collaboration members: Marten van Kerkwijk, Wolfgang Kerzendorf

Located within 10 degrees of the North Pole, northern Ellesmere Island in the High Canadian Arctic offers continuous darkness in the winter months. The lack of a day/night cycle greatly enhances the detection efficiency of planetary transit surveys and other time domain astronomy programs.


We have deployed two wide-field cameras at 80 degrees N, near Eureka, Nunavut. The camera systems, which have been observing since 2012, are based on Canon f/1.2 lenses with 85mm and 50mm focal lengths and Finger Lakes Instrumentation CCD cameras. They continuously imaged 504 and 1,295 square degrees respectively. Together, the cameras took over 44,000 images and produced precision light curves for approximately 70,000 stars.


We achieved a scintillation-limited photometric precision of 1-2% in each 10-second exposure. Binning the short exposures up to 300 seconds provided a photometric stability of 2-3 millimagnitudes, what we need for the detection of transiting exoplanets around the bright stars targeted by our survey. As their survey continues, the cameras are capable of discovering at least 1-5 transiting exoplanets around bright (mV < 9.5) stars.


The images and movie below are from our campaign; click for high-resolution versions.


The top of the Ridge Lab roof, where our cameras were deployed. The bright stars are Jupiter and Venus.

One of the arctic wide-field cameras, aligned with the North Celestial Pole and in its protective enclosure.

An image from the 85mm f/1.2 camera, taken in the SDSS g filter.

A high-quality movie (43MB) of a few hours of the data taken with the 85mm camera.

Because of the circumpolar location of our cameras, satellites in polar orbits often pass overhead. This 10-second image has eight satellites in it! The first sunrise of 2012, taken on February 20 by our team as they finished observing.