Wavefront sensing and control was developed to sense and correct any errors in the telescope's optics. This is essential to making the 18 mirror segments work together as a single giant mirror.

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Wavefront Sensing and Control

Webb Optics Testbed 2
Fully functional, 1/6th scale model of the JWST mirror in its optics testbed used to develop wavefront sensing and control. Photo: NASA
wavefront sensing and control  testbed
Another view of the 1/6th scale model of the JWST mirror in optics testbed. Photo: NASA

The James Webb Space Telescope has an 18-segment, approximately 6.5 meter diameter primary mirror, which is so large it had to fold to fit into the launch vehicle. After launch, the telescope deployed on its way out to its final orbit. Wavefront sensing and control is a technical term used to describe the subsystem that is required to sense and correct any errors in the telescope's optics. This is especially necessary because all 18 segments have to work together as a single giant mirror.

Ball Aerospace engineered a scaled telescope testbed to develop and demonstrate this technology. An image of the testbed telescope is shown at right. Each of the 9 distinct alignment processes - the algorithms - needed to align the deployed 18-mirrored telescope into a high-performance single-mirrored telescope were designed and demonstrated on the testbed.

Spinoff

The work performed on the telescope optics resulted in a NASA tech spinoff for diagnosing eye conditions and accurate mapping of the eye. This spinoff supports research in cataracts, keratoconus (an eye condition that causes reduced vision), and eye movement - and improvements in the LASIK procedure.

Webb Optics Testbed
Alternative view of the 1/6th scale model of the JWST mirror in optics testbed. Photo: NASA Photo: NASA