High resolution mesospheric sodium properties for adaptive optics applications

Pfrommer, Thomas; Hickson, Paul

doi:10.1051/0004-6361/201423460

Cited by 47 publications

(43 citation statements)

References 28 publications

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“…The sodium dissipation rate is also strongly affected by the MLT temperatures, which are in the range of 180-200 K representing the coldest region in the atmosphere. Because the temperature of the MLT varies seasonally and with latitude, this lower boundary varies in extreme cases by 10 km, but usually lies between 80 km and 85 km [16]. Figure 1 shows an example of the sodium layer cross section as detected by a high-resolution lidar (light detection and ranging) system, located near Vancouver, Canada, at the University of British Columbia (UBC) Large Zenith Telescope [17].…”

Section: Optical Interactions Affecting the Laser Guide Star 21 Sodimentioning

confidence: 99%

The Four-Laser Guide Star Facility: Design considerations and system implementation

Calia

Holzlöhner

Lewis

et al. 2014

Advanced Optical Technologies

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Ground-based optical telescopes, in particular large ones, require adaptive optics to overcome the atmospheric seeing limit due to turbulence. Correcting the distorted wavefront necessitates bright stars in the field of view. The sky coverage can be greatly increased by using artificial sodium laser guide stars in addition to natural guide stars. We describe the underlying physics and technical considerations relevant to such systems before discussing the design of the four-laser guide star facility (4LGSF) which is currently under development for the ESO Very Large Telescope (VLT) on Cerro Paranal, Chile. The focus is upon the justification of the requirements and their technical solution.

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Section: Optical Interactions Affecting the Laser Guide Star 21 Sodimentioning

confidence: 99%

The Four-Laser Guide Star Facility: Design considerations and system implementation

Calia

Holzlöhner

Lewis

et al. 2014

Advanced Optical Technologies

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“…In a real system, they should be weighted according to the sodium intensity distribution model used (see Ref. [13] or [14], for example). The maintenance of the exit pupil position and size was one of the main boundary conditions during the optimization.…”

Section: Image and Wavefront Qualitymentioning

confidence: 99%

Design of pre-optics for laser guide star wavefront sensor for the ELT

Muslimov

Dohlen

Neichel

et al. 2017

Advanced Optical Technologies

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Abstract:In the present paper, we consider the optical design of a zoom system for the active refocusing in laser guide star wavefront sensors. The system is designed according to the specifications coming from the Extremely Large Telescope (ELT)-HARMONI instrument, the first-light, integral field spectrograph for the European (E)-ELT. The system must provide a refocusing of the laser guide as a function of telescope pointing and large decentring of the incoming beam. The system considers four moving lens groups, each of them being a doublet with one aspherical surface. The advantages and shortcomings of such a solution in terms of the component displacements and complexity of the surfaces are described in detail. It is shown that the system can provide the median value of the residual wavefront error of 13.8-94.3 nm and the maximum value <206 nm, while the exit pupil distortion is 0.26-0.36% for each of the telescope pointing directions.

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“…It can be seen here that for larger sodium layer depths, it is favourable to have larger pixel scales. We have therefore selected 0.7 arcseconds per pixel as the default for this study, since performance remains good up to depths of 30 km which is a likely upper limit (Pfrommer & Hickson 2014). We note that a smaller pixel scale would lead to an improvement of a few percent in ensquared energy when sodium layer depth is small.…”

Section: The Effect Of Lgs Wfs Pixel Scale On Ao Performancementioning

confidence: 99%

Monte Carlo modelling of multi-object adaptive optics performance on the European Extremely Large Telescope

Basden¹,

Morris²

2016

Mon. Not. R. Astron. Soc.

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The performance of a wide-field adaptive optics system depends on input design parameters. Here we investigate the performance of a multi-conjugate adaptive optics system design for the European Extremely Large Telescope, using an end-to-end Monte-Carlo adaptive optics simulation tool, DASP. We consider parameters such as the number of laser guide stars, sodium layer depth, wavefront sensor pixel scale, number of deformable mirrors, mirror conjugation and actuator pitch. We provide potential areas where costs savings can be made, and investigate trade-offs between performance and cost. We conclude that a 6 laser guide star system using 3 DMs seems to be a sweet spot for performance and cost compromise.

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High resolution mesospheric sodium properties for adaptive optics applications

Cited by 47 publications

References 28 publications

The Four-Laser Guide Star Facility: Design considerations and system implementation

The Four-Laser Guide Star Facility: Design considerations and system implementation

Design of pre-optics for laser guide star wavefront sensor for the ELT

Monte Carlo modelling of multi-object adaptive optics performance on the European Extremely Large Telescope

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