Article 51TK8 Improved Laser System Will Help Large Optical Telescopes Gather More Accurate Data

Improved Laser System Will Help Large Optical Telescopes Gather More Accurate Data

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Arthur T Knackerbracket has found the following story:

Large-diameter ground-based optical telescopes now routinely use laser-beam generated artificial guide stars, created in the higher levels of the atmosphere. These artificial stars allow users to correct atmospheric aberrations of light passing to and from space, using adaptive optics. They are crucial for high fidelity transmission of data for applications in both optical free-space and ground to earth communications, in space debris imaging and tracking, and for astronomy.

The principle involves using a precisely tuned laser to energize atoms in the sodium layer that occurs naturally in the mesosphere, at an altitude of around 90 km. These atoms re-emit the laser light, temporarily creating a glowing artificial star. There have been a number of technologies developed to do this, but generating that specific wavelength has been a notorious challenge that has so far needed impractical approaches.

Now researchers from the MQ Photonics Research Centre at Macquarie University have shown that diamond Raman lasers are a highly efficient way to generate the precise output needed. They have for the first time demonstrated a continuous-wave 589 nm diamond laser for guidestar applications. Described in Optics Letters, the laser delivered higher power and efficiency than previous guide star laser systems of its type.

[...] The diamond laser is in the class of lasers called Raman lasers, and works by stimulated scattering rather than stimulated emission. The researchers have found that this core difference enables the laser to operate more stably on a pure single frequency.

The authors believe we will soon see diamond lasers on telescopes and at higher levels. "We believe that the diamond approach will provide an interesting system for greatly expanding the brightness and quality of future guide stars. The light-atom interaction in the sodium layer happens to be extremely complex, but this brings forth interesting opportunities to adapt lasers to boost the performance of earth-to-space adaptive optical systems." says Professor Rich Mildren, the research leader for this work.

More information: Xuezong Yang et al. Diamond sodium guide star laser, Optics Letters (2020). DOI: 10.1364/OL.387879

Journal information: Optics Letters

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