Precision engineering for astronomy: historical origins and the future revolution in ground-based astronomy

Abstract: Since the dawn of civilization, the human race has pushed technology to the limit to study the heavens in ever-increasing detail. As astronomical instruments have evolved from those built by Tycho Brahe in the sixteenth century, through Galileo and Newton in the seventeenth, to the present day, astronomers have made ever more precise measurements. To do this, they have pushed the art and science of precision engineering to extremes. Some of the critical steps are described in the evolution of precision enginee… Show more

“…When we apply the same definition in other regimes, we sometimes stumble. At least two active projects to develop large ground-based telescopes will use segmented, primary mirrors comprising hundreds of approximately hexagonal segments which, when appropriately phased, form the desired shape [13]. The proposed US Thirty Meter Telescope (TMT), for example, has a structure function definition on the surface errors of the individual, 1.5 m (approximately) primary mirror segments.…”

Precision engineering: an evolutionary perspective

“…When we apply the same definition in other regimes, we sometimes stumble. At least two active projects to develop large ground-based telescopes will use segmented, primary mirrors comprising hundreds of approximately hexagonal segments which, when appropriately phased, form the desired shape [13]. The proposed US Thirty Meter Telescope (TMT), for example, has a structure function definition on the surface errors of the individual, 1.5 m (approximately) primary mirror segments.…”

Precision engineering: an evolutionary perspective

Bibliography

The Endeavour on Support Technique of Large Aperture Space Mirror