AO Demo Image
Credit: Gemini Observatory, US National Science Foundation, and University of Hawaii Institute for Astronomy
These images are of the central region of NGC 6934, a globular cluster located 50,000 light years from Earth. Globular clusters are extremely dense stellar environments that typically contain between one hundred thousand to one million stars. The density of these star cities presents us with a wealth of information on stars of all sizes but also presents a great challenge: how can we peer into the very heart of such a dense star cluster?
Using adaptive optics to remove atmospheric distortions, Gemini can provide extremely sharp pictures that deblur and deblend the star images and allow observations right into the very heart of these oldest stellar environments.
The optical picture on the left is sharp and clear because of the good atmospheric conditions on Mauna Kea and the excellent optical quality of the Gemini telescope. Yet NGC 6934 contains so many stars that even the thin atmosphere above Mauna Kea blurs the starlight enough that the stars overlap and can no longer be studied individually. The infrared picture on the right was made with Gemini and the University of Hawaii's Hokupa'a Adaptive Optics System. Hokupa'a, derived from the Hawaiian name for the north star, compensates for the remaining blurring of starlight by the atmosphere above Mauna Kea. The resulting picture is so sharp that individual stars can easily be seen and studied in detail even in the very heart of this globular cluster. The resolution of the image on the right is comparable to resolving the separation between two automobile headlights at 2000 miles!
Adaptive Optics systems use deformable mirrors to correct for the effects of atmospheric distortions to starlight, resulting in significantly sharper images. Adaptive Optics will allow Gemini to at times produce sharper images than is possible with the Hubble Space Telescope. The United States National Science Foundation has provided significant financial support to the University of Hawai'i Adaptive Optics Program to obtain these images.
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