The first of a new generation of high actuator density AO systems developed for large telescopes, PALM-3000 is optimized for high-contrast exoplanet science but will support operation with natural guide stars as faint as V approx. 18. PALM-3000 began commissioning in June 2011 on the Palomar 200" telescope and has to date over 60 nights of observing. The AO system consists of two Xinetics deformable mirrors, one with 66 by 66 actuators and another with 21 by 21 actuators, a Shack-Hartman WFS with four pupil sampling modes (ranging from 64 to 8 samples across the pupil), and a full vector matrix multiply real-time system capable of running at 2KHz frame rates. We present the details of the completed system, and initial results. Operating at ...
PALM-3000 (P3K), the second-generation adaptive optics (AO) instrument for the 5.1 meter Hale telesc...
We discuss conceptual design issues for a 1600 actuator tweeter mirror/multiconjugate AO upgrade to ...
Conference on Adaptive Optics Systems VI -- JUN 10-15, 2018 -- Austin, TXWOS: 000452819300183Thanks ...
The first of a new generation of high actuator density AO systems developed for large telescopes, PA...
The PALM-3000 upgrade to the Palomar Adaptive Optics system on the 5.1 meter Hale telescope will del...
We report on the status of PALM-3000, the second generation adaptive optics instrument for the 5.1 m...
Deployed as a multi-user shared facility on the 5.1 meter Hale Telescope at Palomar Observatory, the...
The 5.1 meter diameter telescope at Palomar Observatory has been equipped with a (currently) 7.5 W s...
We describe and report first results from PALM-3000, the second-generation astronomical adaptive opt...
We describe the lab characterization of the new 3,388-actuator deformable mirror (DM3388) produced b...
<p>Poster I presented at the 218th Meeting of the American Astronomical Society.</p> <p> </p> <p>A...
This paper reflects, from a computational perspective, on the experience gathered in designing and i...
We describe the current performance of the Palomar 200 inch (5 m) adaptive optics system, which in D...
PALM-3000 is proposed to be the first visible-light sodium laser guide star astronomical adaptive op...
When commissioned in November 2008 at the Palomar 200 inch Hale Telescope, the Oxford SWIFT Iandz ba...
PALM-3000 (P3K), the second-generation adaptive optics (AO) instrument for the 5.1 meter Hale telesc...
We discuss conceptual design issues for a 1600 actuator tweeter mirror/multiconjugate AO upgrade to ...
Conference on Adaptive Optics Systems VI -- JUN 10-15, 2018 -- Austin, TXWOS: 000452819300183Thanks ...
The first of a new generation of high actuator density AO systems developed for large telescopes, PA...
The PALM-3000 upgrade to the Palomar Adaptive Optics system on the 5.1 meter Hale telescope will del...
We report on the status of PALM-3000, the second generation adaptive optics instrument for the 5.1 m...
Deployed as a multi-user shared facility on the 5.1 meter Hale Telescope at Palomar Observatory, the...
The 5.1 meter diameter telescope at Palomar Observatory has been equipped with a (currently) 7.5 W s...
We describe and report first results from PALM-3000, the second-generation astronomical adaptive opt...
We describe the lab characterization of the new 3,388-actuator deformable mirror (DM3388) produced b...
<p>Poster I presented at the 218th Meeting of the American Astronomical Society.</p> <p> </p> <p>A...
This paper reflects, from a computational perspective, on the experience gathered in designing and i...
We describe the current performance of the Palomar 200 inch (5 m) adaptive optics system, which in D...
PALM-3000 is proposed to be the first visible-light sodium laser guide star astronomical adaptive op...
When commissioned in November 2008 at the Palomar 200 inch Hale Telescope, the Oxford SWIFT Iandz ba...
PALM-3000 (P3K), the second-generation adaptive optics (AO) instrument for the 5.1 meter Hale telesc...
We discuss conceptual design issues for a 1600 actuator tweeter mirror/multiconjugate AO upgrade to ...
Conference on Adaptive Optics Systems VI -- JUN 10-15, 2018 -- Austin, TXWOS: 000452819300183Thanks ...