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The James Webb Space Telescope

The History of the Most Powerful Telescope in Space

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The James Webb Space Telescope

Auteur(s): Charles River Editors
Narrateur(s): Steve Knupp
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On April 24, 1990, the Space Shuttle Discovery lifted off from Kennedy Space Center on the Space Shuttle Program’s 35th mission, but this was no ordinary mission. In its payload bay, Discovery was carrying the Hubble Space Telescope, with the objective of putting the telescope into orbit.

Despite the costs and initial defects, the Hubble telescope has been a remarkably successful project, furthering astronomers’ understanding of the universe more than any other telescope or instrument in history. During its decades in orbit, the versatile telescope has taken high resolution images of objects billions of light years away, giving astronomers a look at the early universe. Along the way it has also taken the most detailed pictures of the solar system, captured the most striking images of star creation and supernovae, and uncovered evidence of phenomena like gamma-ray bursts and dark energy.

What made Hubble so crucial is that by escaping Earth’s atmosphere, the telescope’s views eliminated limitations and interruptions that are a natural part of land-based telescopes. Land-based telescopes are larger, cheaper, and easier to maintain. They are also not vulnerable to the risk of colliding with space junk or fast-moving small meteoric materials. However, even at 11,000 feet, ground-based installations have historically faced atmospheric distortion. The atmosphere blurs the light when a picture is taken through it, and since the 1960s, science has increasingly leaned toward space-based instruments, at first attaching them to balloons and sending them aloft to “carry them above Earth’s lower atmosphere.”

The atmospheric distortion problem with ground telescopes has been largely ameliorated in recent years by the development of “adaptive optics.”[1] A ground-based facility can now produce an image as sharp as that of a space telescope. This makes the division of labor between the two a bit clearer. The space instrument provides a wider field of view in addition to fine optical resolution, and it is no longer necessary to use “visual to near-visual”[2] telescopes operating in space. In fact, optical telescope photos are available in high quality for the general public based on NASA technology. Boston Micromachines claims to provide “clearer pictures of celestial objects in deep space than ever before…with ‘deformable’ mirrors that compensate for atmospheric disturbances and instrument misalignments.”[3]

Still, scientists need to build space telescopes, not just for high resolution pictures but also to work in wavelengths one cannot observe from Earth. From space, telescopes that work in parts of the non-visual wavelengths provide the only means of viewing x-rays, gamma rays, and extreme ultraviolet rays. Most importantly, they provide “excellent platforms for observing in the far-infrared”[4] spectrum.

The Hubble telescope, working in space less than 400 miles above the Earth’s surface, produced photos of galaxies previously unseen as they existed only 500 million years before the “Big Bang.” It was fortuitous that Hubble outlived its anticipated lifespan by many years, because the launch of its successor, the James Webb Space Telescope, was delayed by 15 years.

A launch date of 2007 for the James Webb Space Telescope was the original agenda, but two years prior a “major redesign”[5] became necessary. In another instance, “a ripped sunshield during a practice deployment”[6] set the project back, followed by a series of significant cost overruns.

©2022 Charles River Editors (P)2023 Charles River Editors
Astronomie et science de l’espace États-Unis Système solaire
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