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regular-article-logo Saturday, 16 November 2024

High Five

First scientific results from the James Webb Telescope are coming in, and the $10 billion instrument is working even better than astronomers had dared to hope

Dennis Overbye Published 09.01.23, 05:33 AM
Annotated views of the Cosmic Cliffs revealed by the James Webb telescope

Annotated views of the Cosmic Cliffs revealed by the James Webb telescope

So far it’s been eye candy from heaven: the black vastness of space teeming with enigmatic, unfathomably distant blobs of light. Ghostly portraits of Neptune, Jupiter and other neighbours we thought we knew. Nebulas and galaxies made visible by the penetrating infrared eyes of the James Webb Space Telescope.

The telescope, named after James Webb, the Nasa administrator during the build-up to the Apollo moon landings, is a joint project of Nasa, the European Space Agency and the Canadian Space Agency. It was launched on Christmas one year ago — after two trouble-plagued decades and $10 billion — on a mission to observe the universe in wavelengths no human eye can see. With a primary mirror 21 feet wide, the Webb is seven times as powerful as the Hubble Space Telescope, its predecessor. One hour of observing time on it costs Nasa about $17,000.

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But neither Nasa nor the astronomers paid all that money and political capital just for pretty pictures — not that anyone is complaining.

“The first images were just the beginning,” said Nancy Levenson, who is temporary director of the Space Telescope Science Institute, which runs both the Webb and the Hubble. “More is needed to turn them into real science.”

For three days in December, some 200 astronomers filled an auditorium at the institute to hear and discuss the first results from the telescope. An additional 300 or so watched online. The event served as a belated celebration of the Webb’s successful launch and inauguration and a preview of its bright future.

One by one, astronomers marched to the podium and, speaking rapidly to obey the 12-minute limit, blitzed through a cosmos of discoveries: galaxies that, even in their relative youth, had already spawned huge black holes. Atmospheric studies of some of the seven rocky exoplanets orbiting Trappist 1, a red dwarf star that might harbour habitable planets.

Between presentations, on the sidelines and in the hallways, senior astronomers who were on hand in 1989 when the idea of the Webb telescope was first broached congratulated one another and traded war stories about the telescope’s development. They gasped audibly as the youngsters showed off data that blew past their own achievements with the Hubble.

Jane Rigby, project scientist for operations for the telescope, recalled her emotional tumult a year ago as the telescope finally approached its launch. The instrument had been designed to unfold in space — an intricate process with 344 potential “single-point failures” — and Rigby could only count them, over and over. “I was in the stage of denial,” she said in Baltimore. But the launch and deployment went flawlessly. Now, she said, “I’m living the dream.”

Garth Illingworth, an astronomer at the University of California, Santa Cruz, US, who in 1989 chaired a key meeting at the Space Telescope Science Institute that ultimately led to the Webb, said simply, “I’m just blown away.”

At a reception after the first day of the meeting, John Mather of Nasa’s Goddard Space Flight Center and Webb’s senior project scientist from the start, raised a glass to the 20,000 people who built the telescope, the 600 astronomers who had tested it in space and the new generation of scientists who would use it.

Thus far the telescope, bristling with cameras, spectroscopes and other instruments, is exceeding expectations. Its resolving power is twice as good as advertised. Its flawless launch, Rigby reported, has left it with enough maneuvering fuel to keep it working for 26 years or more.

“These are happy numbers,” she said as she and her colleagues rattled off performance statistics of their instruments. Rigby cautioned that the telescope’s instruments were still being calibrated, so the numbers might yet change.

Perhaps the biggest surprise from the telescope so far involves events in the early millenniums of the universe. Galaxies appear to have been forming, generating and nurturing stars faster than battle-tested cosmological models estimated. “How did galaxies get so old so fast?” asked Adam Riess, a Nobel physics laureate and cosmologist from Johns Hopkins University who dropped in for the day.

Exploring that province — “cosmic spring,” as one astronomer called it — is the goal of several international collaborations with snappy acronyms like JADES (JWST Advanced Deep Extragalactic Survey), CEERS (Cosmic Evolution Early Release Science), GLASS (Grism Lens-Amplified Survey From Space) and PEARLS (Prime Extragalactic Areas for Reionization and Lensing Science).

Webb’s infrared vision is fundamental to these efforts. As the universe expands, galaxies and other distant celestial objects are speeding away from Earth so fast that their light has been stretched and shifted to invisible, infrared wavelengths. Beyond a certain point, the most distant galaxies are receding so quickly, and their light is so stretched in wavelength, that they are invisible even to the Hubble telescope.

The Webb telescope was designed to expose and explore these regions, which represent the universe at just 1 billion years old, when the first galaxies began to bloom with stars. “It takes time for matter to cool down and get dense enough to ignite stars,” noted Emma Curtis-Lake, of the University of Hertfordshire and a member of the JADES team. The rate of star formation peaked when the universe was 4 billion years old, she added, and has been falling ever since. The cosmos is now 13.8 billion years old.

In the closing talk, Mather limned the telescope’s history. He also previewed Nasa’s next big act: a 12- metre space telescope called the Habitable Worlds Observatory that would seek out planets and study them.

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