Nearly 20 years after its engineers began construction, NASA began testing this week on the largest space telescope ever built, a 21ft arrangement of mirrors and instruments that is meant to succeed the Hubble telescope and look through 13bn years of space.
NASA administrator Charles Bolden announced that the agency had finished construction earlier this week on the James Webb Space Telescope, an $8.8B giant whose 18 gold-coated, hexagonal plates that span the length of a tennis court and which, from bottom to top, is as tall as a three-story building.
“We’ve done two decades of innovation and hard work, and this is the result,” project scientist John Mather said at a press conference on Wednesday. “We’re opening up a whole new territory of astronomy.”
The James Webb Space Telescope (JWST) has a giant sunshield that divides the craft in two: one side facing the sun, which will power the device, and another to keep the instruments at an operating temperature of -220C, cold enough to minimize the effect of the telescope’s own heat on its observations. The telescope has a primary mirror more than five times larger than Hubble’s, meaning the JWST will be able to spot fainter, more distant objects.
The JWST’s greater power will also mean that it can see planets in greater detail, letting scientists look for atmospheres, seasons and even weather or signs of life. Mather said the telescope will have “seven times the collecting area” of Hubble, and enough power to detect the body heat of a bumblebee on the moon.
“We’d like to know if another planet out there has enough water to have an ocean, and we think we can do that,” Mather said.
The new telescope will have infrared instruments, to reflect and collect infrared wavelengths, meaning it can look farther back in time – at the stars and galaxies hurtling away into the expanding reaches of the universe, from where it takes light billions of years to reach the Earth. Those stars’ light has stretched into wavelengths so red (“redshifted”) it has entered the infrared spectrum, past the range of Hubble’s view.