2003
DOI: 10.1117/12.484661
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Control challenges for extremely large telescopes

Abstract: The next generation of large ground-based optical telescopes are likely to involve a highly segmented primary mirror that must be controlled in the presence of wind and other disturbances, resulting in a new set of challenges for control. The current design concept for the California Extremely Large Telescope (CELT) includes 1080 segments in the primary mirror, with the out-of-plane degrees of freedom actively controlled. In addition to the 3240 primary mirror actuators, the secondary mirror of the telescope w… Show more

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Cited by 10 publications
(11 citation statements)
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“…Measurements taken at the Gemini observatory with the vents closed and the telescope facing upwind showed, on average, that the effective velocity u M1,eff near M1 was 7% of the external wind speed 19 (Fig. 7), and that this was a good predictor of both the rms pressure ͑C p ϳ 1͒ on the primary mirror and the outer-scale frequency.…”
Section: Wind Speed Near M1mentioning
confidence: 98%
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“…Measurements taken at the Gemini observatory with the vents closed and the telescope facing upwind showed, on average, that the effective velocity u M1,eff near M1 was 7% of the external wind speed 19 (Fig. 7), and that this was a good predictor of both the rms pressure ͑C p ϳ 1͒ on the primary mirror and the outer-scale frequency.…”
Section: Wind Speed Near M1mentioning
confidence: 98%
“…While the turbulence inside the telescope enclosure is clearly not isotropic, observations at Gemini 5,19 (e.g., Figs. 9 and 10) and other telescopes (Keck, VLT, MMT) as well as measurements in wind-tunnel testing (see Fig.…”
Section: Temporal Spectrum and Spatial Correlationmentioning
confidence: 98%
“…• a 1 (broadband on M1 due to dome opening): Measurements taken at Gemini observatory with the vents closed and the telescope facing upwind gave that on average the rms velocity at the primary mirror was 6% of the external wind speed, 5 and that this was a good predictor of both the rms pressure on the primary mirror and the outer scale frequency f 1 = D s /U 1s . The internal wind speeds are assumed to scale with the ratio of dome opening size to dome diameter,…”
Section: Parameter Estimatesmentioning
confidence: 99%
“…The outer scale L s associated with the turbulence observed near the secondary mirror, and the turbulence near the primary mirror when the vents are closed is roughly equal to the diameter D s of the dome opening. 5,10 The outer scale L v associated with the turbulence over M1 that is caused by flow through open vents is related to the height D v of the vent gates. 10 The spatial correlation length of pressure on a surface resulting from turbulence is related to the outer scale by = L/ √ 70.8.…”
Section: Mechanismsmentioning
confidence: 99%
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