Add to ORKGThe unique atmospheric conditions present at sites such as Dome C on the Antarctic plateau are very favorable for high spatial resolution astronomy. At Dome C, the majority of the optical turbulence is confined to a 30 to 40 m thick stable boundary layer that results from the strong temperature inversion created by the heat exchange between the air and the ice-covered ground. To fully realize the potential of the exceptionally calm free atmosphere, this boundary layer must be overcome. In this article we compare the performance of two methods proposed to beat the boundary layer: mounting a telescope on a tower that physically puts it above the turbulent layer, and installing a telescope at ground level with a ground-layer adaptive optics sy...
International audienceWe present the latest results of our on-going closed-loop “end-to-end” numeric...
We present the latest results of our on-going closed-loop “end-to-end” numerical adaptive optics (AO...
The optical turbulence above Dome C in winter is mainly concentrated in the first tens of meters abo...
The unique atmospheric conditions present at sites such as Dome C on the Antarctic plateau are very ...
The unique atmospheric conditions present at sites such as Dome C on the Antarctic plateau are very ...
The unique atmospheric characteristics found at Dome C on the Antarctic plateau offer significant ad...
International audienceDuring the austral winter 2005, the first astronomical site testing campaign w...
International audienceDuring the austral winter 2005, the first astronomical site testing campaign w...
International audienceDuring the austral winter 2005, the first astronomical site testing campaign w...
From the South Pole, microthermal turbulence within a narrow surface boundary layer some 200 m thic...
From the South Pole, microthermal turbulence within a narrow surface boundary layer some 200 m thic...
From the South Pole, microthermal turbulence within a narrow surface boundary layer some 200 m thic...
At altitudes of up to 4100m, the Domes of the Antarctic plateau provide unique opportunities for gro...
We present the latest results of our on-going closed-loop “end-to-end” numerical adaptive optics (AO...
International audienceWe present the latest results of our on-going closed-loop “end-to-end” numeric...
International audienceWe present the latest results of our on-going closed-loop “end-to-end” numeric...
We present the latest results of our on-going closed-loop “end-to-end” numerical adaptive optics (AO...
The optical turbulence above Dome C in winter is mainly concentrated in the first tens of meters abo...
The unique atmospheric conditions present at sites such as Dome C on the Antarctic plateau are very ...
The unique atmospheric conditions present at sites such as Dome C on the Antarctic plateau are very ...
The unique atmospheric characteristics found at Dome C on the Antarctic plateau offer significant ad...
International audienceDuring the austral winter 2005, the first astronomical site testing campaign w...
International audienceDuring the austral winter 2005, the first astronomical site testing campaign w...
International audienceDuring the austral winter 2005, the first astronomical site testing campaign w...
From the South Pole, microthermal turbulence within a narrow surface boundary layer some 200 m thic...
From the South Pole, microthermal turbulence within a narrow surface boundary layer some 200 m thic...
From the South Pole, microthermal turbulence within a narrow surface boundary layer some 200 m thic...
At altitudes of up to 4100m, the Domes of the Antarctic plateau provide unique opportunities for gro...
We present the latest results of our on-going closed-loop “end-to-end” numerical adaptive optics (AO...
International audienceWe present the latest results of our on-going closed-loop “end-to-end” numeric...
International audienceWe present the latest results of our on-going closed-loop “end-to-end” numeric...
We present the latest results of our on-going closed-loop “end-to-end” numerical adaptive optics (AO...
The optical turbulence above Dome C in winter is mainly concentrated in the first tens of meters abo...