Palomar Ultraviolet Laser for the Study of Exoplanets

PULSE is a project to augment the currently operating 5.1-m Hale PALM-3000 exoplanet adaptive optics system with an ultraviolet Rayleigh laser and associated wavefront sensor. By using an ultraviolet laser to measure the high spatial and temporal order turbulence near the telescope aperture, where it dominates, one can extend the faintness limit of natural guide stars needed by PALM-3000. Initial simulations indicate that very-high infrared contrast ratios and excellent visible-light adaptive optics performance will be achieved by such an upgraded system on stars as faint as mV = 15. This will enable direct imaging searches for, and subsequent characterization of, companions around cool, low-mass stars for the first time, as well as routine visible-light imaging twice as sharp as HST for fainter targets. PULSE will reuse the laser and wavefront sensor technology developed for the automated Robo-AO laser system currently operating at the Palomar 60-inch telescope, as well as take advantage of pending upgrades to the PALM-3000 real-time reconstructor computer to accept commands from auxiliary wavefront sensors. A copy of the Robo-AO laser will be installed in the prime focus cage of the 5.1-m, and a new ultraviolet high-order wavefront sensor, fed by an ultraviolet dichroic, will be installed in the space above the PALM-3000 optical bench near the calibration sources. The laser measurements will drive the 3,388 active element high-order deformable mirror in open-loop, while an adaptive optics sharpened faint natural source will be measured by the current PALM-3000 wavefront sensor in its lowest spatial sampling mode, with commands sent in closed-loop to the 241 active element low-order deformable mirror. The natural guide star loop corrects for both the relatively weak low-order high-altitude turbulence as well as functioning as both the tip-tilt and low-bandwidth ‘truth’ sensor loops found in traditional laser adaptive optics systems.

The PULSE project is a collaboration between Caltech Optical Observatories, the Jet Propulsion Laboratory and the Institute for Astronomy at the University of Hawai'i and is led by Principal Investigator Richard Dekany and Co-PI Christoph Baranec, with Project Scientist Brendan Bowler and Co-I Rick Burruss.


Recent News

June 25th, 2014: Christoph presented the PULSE concept at the SPIE Astronomical Telescopes + Instrumentation conference in Montreal, Canada. See the presentation here and read the proceedings here.


November 7th, 2013: Our NSF-ATI proposal to fund the development of PULSE has been submitted.


The PULSE initial concept.

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