A continuous wave dye laser for use in astronomical adaptive optics | | Posted on:1999-06-24 | Degree:Ph.D | Type:Thesis | | University:The University of Arizona | Candidate:Martinez, Ty | Full Text:PDF | | GTID:2468390014472516 | Subject:Physics | | Abstract/Summary: | | | Powerful lasers are needed to generate artificial guide stars for astronomical adaptive optics. Continuous wave (CW) lasers yield the most efficient excitation of the D{dollar}sb2{dollar} line in the mesopheric sodium layer. Data is presented from early systems which used commercially available CW dye lasers.; Building on these results, a dye laser was designed and constructed which incorporates a sodium Faraday filter (SFF) to select and lock the laser frequency to the peak of the D{dollar}sb2{dollar} sodium resonance. This laser was the first ring dye laser made using an intra-cavity SFF, and also the first incorporating a SFF to produce a significant amount of power in a single longitudinal mode.; A major part of this thesis concerns the design and construction of the SFF. The theory of operation is developed and then used to design a SFF with a high throughput at the D{dollar}sb2{dollar} line of sodium. The two main elements of a SFF are a sodium cell and a magnet. The design and construction of these two elements is discussed in detail.; The design and construction of a wavefront sensor for the Multiple Mirror Telescope's unique geometry is presented. This wavefront sensor and a CW dye laser were used to generate the first astronomical images sharpened by an adaptive optics system incorporating a sodium laser guide star. | | Keywords/Search Tags: | Laser, Astronomical, Adaptive, Sodium, SFF | | Related items |
| |
|