The Webb Space Telescope is 100x as powerful as the Hubble. It will change astronomy. – Vox.com

Posted: September 24, 2021 at 10:29 am

Exploring strange new worlds. Understanding the origins of the universe. Searching for life in the galaxy. These are not the plot of a new science fiction movie, but the mission objectives of the James Webb Space Telescope, the long-awaited successor to the Hubble Space Telescope. NASA is building and launching the Webb in partnership with the European Space Agency and Canada.

The launch, which will propel the Webb to nearly a million miles away, is now scheduled for December 18, 2021. When it fully deploys in space, the Webb will usher in a new age of astronomy, scientists say, and show humanity things it has never seen before.

The Webb represents the culmination of decades, if not centuries, of astronomy, says Sara Seager, a planetary scientist and astrophysicist at MIT. Weve been waiting for this a very long time.

Scientists started thinking about a follow-up even before the Hubble Space Telescope launched in 1990. After more than three decades in space, its unclear how much longer this boundary-breaking satellite will be able to scan and photograph the universe.

The Webb was originally supposed to launch in 2010 and cost around $1 billion. Its price tag has since ballooned to $10 billion, and its way overdue. But the wait will be worth it, at least according to the scientists who expect new and revealing glimpses of our universe.

Were going right up to the edge of the observable universe with Webb, says Caitlin Casey, an assistant professor of astronomy at the University of Texas at Austin. And yeah, were excited to see whats there.

The Webb will surpass the Hubble in several ways. It will allow astronomers to look not only farther out in space but also further back in time: It will search for the first stars and galaxies of the universe. It will allow scientists to make careful studies of numerous exoplanets planets that orbit stars other than our sun and even embark on a search for signs of life there.

The Webb is a machine for answering unanswered questions about the universe, for exploring what has been unexplorable until now. Heres a guide to what the Webb is capable of.

The launch of the Hubble Space Telescope, named after famed astronomer Edwin Hubble, was itself a huge leap forward for astronomy. Here on Earth, astronomers seek out remote mountaintops and deserts to build major telescopes for the best chance of viewing a dark sky away from pollution and bright lights. But their view is still marred by the slight haze and luminescence of the Earths atmosphere. Space is the ultimate mountaintop, as NASA explains. Theres no better view of space than the one from, well, space.

Hubble has meant so much during its 30-year run. For one thing, its sent us unforgettable, jaw-droppingly beautiful images like those of the Lagoon Nebula and the Pillars of Creation.

Its also taught us about the age of the universe, about what happens when stars explode, about black holes. It helped establish many of the boundaries that the Webb hopes to push. Most powerfully, its observations have led scientists to believe the universe is expanding at an accelerating rate, propelled by something so mysterious that scientists simply call it dark energy.

The Webb, named for the man who led NASA in the decade leading up to the moon landing, is set to take all this a step further. What were going to get is a telescope thats about 100 times more powerful than Hubble, says Amber Straughn, an astrophysicist at NASA who works on the Webb.

How?

The Webb improves on Hubble in two key ways. The first is just its size: Hubble was about the size of a school bus, whereas Webb is more like the size of a tennis court. This thing is enormous, Straughn says. Webb is by far the biggest telescope NASAs ever attempted to send into space.

But its not just the total size of the contraption that matters. When it comes to reflecting telescopes, the key component is the size of its curved mirror. You could sort of think of a telescope mirror like a light bucket, Straughn says. The more light you can collect in this bucket, the fainter and farther-away things you can see in the universe.

Hubbles mirror was an impressive 7.8 feet in diameter. Webbs beautiful, gold-hued mirrors combine for a diameter of 21.3 feet. Overall, that amounts to more than six times the light-collecting area.

What does that mean in practice? Well, consider one of Hubbles most famous images, the Deep Field. In 1995, scientists set the Hubble to stare off into a teeny-tiny patch of sky (about the size of the head of a pinhead, held at arm's length from the viewer) and capture as much light as it could from that one spot.

The image that came back was astounding. Hubble uncovered thousands of galaxies in this teensy patch of sky, helping us refine the number of galaxies thought to exist in the universe.

This photograph also revealed Hubbles larger power as a time machine. In astronomy, the farther away things are, the older they are (because light from faraway places takes a very long time to travel to Earth). That means this Hubble Deep Field is not only a snapshot of space: It also contains the history of our universe. Galaxies in this image appear to us as they were billions of years ago.

What Webb will do is take that field and go even further, UT Austins Casey explains. So the tiny specks of light in the background of the Hubble Deep Field will brighten and become more detailed, well be able to see spiral arms, well be able to see structure, and then well get more specks of light even further in the past. Were seeing farther back in time with Webb.

With Webb, astronomers like Casey will be able to see so far back that theyll potentially spot the very first stars and galaxies. Hubble has seen light dating to about 400 million years after the Big Bang, which took about 13.3 billion years to reach us.

Thats far! But Webb has the capability to take us to 250 million years after the Big Bang, explains Casey, who has been approved to work with the Webb Space Telescope. It might not sound like a big difference. Whats a few hundred million years between friends? Actually, its the difference between seeing the first stars that ever turned on [and] arriving a bit too late after the funeral.

Beyond that are barriers through which even the Webb cannot see. Prior to the first starlight, the universe was shrouded by a dense, obscuring fog of primordial gas, as the National Science Foundation explains. Theres no light that reaches our telescopes from this time, which is called the cosmic dark ages.

(There is some background radiation from the Big Bang called the cosmic microwave background, a faint glow that shines to us from before the dark ages. But for the most part, the dark ages is a blank spot in our timeline of the universe.)

Casey and other astronomers hope the Webb will help them understand the end of the dark ages and figure out what caused this fog to lift. Scientists suspect the starlight from the earliest galaxies did it.

If you have a cloud of gas and it encounters energetic light, that energetic light will ionize that gas and disassociate that cloud, Casey says. And so if that light just has turned on, it then hits that gas and really transforms the entire universe from a dark place to a light place.

The Webbs other advantage is the type of light it collects.

Light comes in a lot of different varieties. The human eye can see only a narrow band known as visible light, but the universe contains lots and lots of light outside this range, including the higher-frequency, higher-energy forms: ultraviolet, gamma rays. Then theres the lower-energy light with longer wavelengths: infrared, microwaves, radio.

The Hubble Space Telescope collects visible light, ultraviolet, and a little bit of infrared. The Webb is primarily an infrared telescope, so it sees light thats in a longer wavelength than what our eyes can see. This seems nerdy and technical, but its actually what allows Webb to look further back in time than the Hubble.

Infrared light is often very old light, due to a phenomenon call redshifting. When a light source is moving away from a viewer, it gets stretched out, morphing into a longer and longer wavelength, growing redder. (The opposite is true as well: As a light source grows closer, the wavelengths shorten, growing bluer.) Its similar to what happens when a siren goes by: The pitch increases as the siren approaches, then decreases as it trails away.

Because space is constantly expanding, the farthest things away from us in the universe are moving away from us. And as light travels through space from those distant galaxies, the light is literally stretched by the expansion of space, Straughn says.

Imagine a star thats really far away. The light from that star may start off in the visible spectrum, but it gets stretched on its journey to us. It grows redder and redder. So when we see distant galaxies with Hubble, theyre sort of these little, tiny red nuggets, Straughn says. Eventually, these very distant, old galaxies grow so red that they drop into the infrared spectrum. Webb can see this ancient light that has become invisible to the human eye.

Conveniently, infrared light has other uses as well. Its a really good type of light to use to look at exoplanets. For instance, if you were on a planet that orbits another star and wanted to see Earth, visible light wouldnt be your best bet.

The Earth peaks in the infrared, says Johns Hopkins Applied Physics Laboratory astronomer Kevin Stevenson, who plans to use the Webb in his research. So if we want to be able to study an Earth-like planet in another solar system, What we really want to do is observe at infrared wavelengths, because thats where the light from the Earth is being emitted.

Exoplanet scientists like Stevenson are going to use the Webb to analyze the atmospheres of these worlds: The Webb is capable of determining some of the chemicals in their atmospheres. We can detect water, CO, CO2, methane, Stevenson says. While those arent definitive signs of life on their own, they could begin to ask fascinating questions: What created that methane and carbon dioxide? Could it have been life?

We all want to find another Earth, dont we? Stevenson says. The prospect of answering the question are we alone? has been something that weve been asking ourselves for centuries. And I think with James Webb, this will provide us the first opportunity to really answer that question.

Scientists are clearly raring to go, but the Webb revolution has taken a while. One reason for all the launch delays to the launch has to do with contractor snafus. But a big source of all of them, NASAs Straughn says, is the complexity of the Webb itself.

Because its so big, there arent any rockets that are big enough to launch it fully deployed, Straughn says. The telescope has to be folded up to fit inside a rocket, and has to deploy itself in space. So that whole process of building a deployable telescope in space is the source of a lot of the engineering challenges.

Upping the stakes is the fact that while Hubble was launched to around 340 miles above the Earth, Webb will be almost a million miles away four times the distance from the Earth to the moon.

That means once the Webb is launched, it will be unserviceable by human hands if it breaks. Thats scary, considering the history of the Hubble. Shortly after the Hubble launched in 1990, engineers realized there was a problem with its mirror; the telescopes initial images came back fuzzy, and astronauts had to launch a space shuttle to fix it. That wont be possible with the Webb. It just has to work.

It will be far away for good reason. Because Webb is an infrared telescope, it needs to be kept cold. The Earth itself is warm and glows in infrared. Anything warm glows in infrared light, Straughn says. If the telescope was warm, it would just glow and see itself.

Remarkably, any scientist around the world can apply to use the Webb Space Telescope, provided they write up a project proposal that passes peer review. Its pretty competitive. Last year the Space Telescope Science Institute, which operates space telescopes from John Hopkins University in Maryland, put out a call for proposals for Webbs first observing run. About a quarter of the proposals were accepted.

It feels like part of me is still stunned, says Lisa Dang, a physics PhD student at McGill University who was one of the lucky few to get approved to use the Webb. And the other part is having this imposter syndrome like, these data better be really amazing.

Dang is set to study one of the most extreme planets ever discovered: K2-141 b, a planet 202 light-years from Earth and so close to its host star that its surface is believed to be covered by an ocean of lava. If it has clouds, they are likely made out of vaporized rock, which could then precipitate out rock rain. Not much is confirmed about this lava planet, but Dang will use the Webb to study its atmosphere and see whats possible on this extreme world.

Winning the project proposal made me feel like an astronomer for the first time, Dang says. But it also makes K2-141 b very real suddenly.

This is the power of an unprecedented telescope such as the Webb. It will help astronomers like Dang fill in the blank spaces of the cosmos.

Its wild, when you think about it, that were able to piece together the history of what happened before the Earth or the sun even existed, Casey says.

If all goes according to plan, these kinds of breakthroughs could come in a matter of months. Astronomers around the world are waiting for the countdown to begin.

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The Webb Space Telescope is 100x as powerful as the Hubble. It will change astronomy. - Vox.com

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