For this holiday I thought I'd offer an article that has nothing to do with investing but a lot to do with general knowledge and fun -- the latest and greatest from NASA's James Webb space super-telescope via The Atlantic. This revolutionary piece of technology was originally said to be so advanced that, for the first time, scientists would be able to actually observe the Big Bang, that is the creation of the universe. Now they're saying that the big spyglass is in fact exceeding expectations. A fun read, and not too long at 1200 words. Hope everyone enjoyed the holiday.
1-17-22 The James Webb Space Telescope Has Reached Its Final Form - The Atlantic
Even NASA Seems Surprised by Its New Space Telescope
The $10 billion mission is
working better than anyone could have predicted.
By Marina Koren
JANUARY 8, 2022
To the world, the new
telescope that recently launched to space is one of the most ambitious
scientific endeavors in history. It is the next Hubble, designed to observe
nearly everything from here to the most distant edges of the cosmos, to the very first galaxies.
To Jane Rigby’s son,
it’s “mama’s telescope.”
Rigby, an
astrophysicist, used to bring her young son to the NASA center in Maryland to
watch the James Webb Space Telescope being assembled. They would stand together
on an observation deck overlooking a giant, glass-walled room and watch the
technicians, dressed head-to-toe in protective garments to prevent
contamination, do their work. Over the years, they saw the observatory’s 18
mirrors—tiles of a lightweight metal called beryllium, coated in brilliant
gold—installed, one by one, then the science instruments bolted into place. “It
took him a while to figure out that not everybody has a telescope at work,”
Rigby told me. “I remember him asking my wife, ‘So where’s your telescope at
work?’”
Rigby’s son, now 8
years old, watched Webb’s historic launch on a livestream on Christmas morning.
Webb, a NASA-led international mission, left Earth from a
European spaceport in French Guiana, in South America. After the telescope made
it into space, controllers in the United States took over. Engineers had
carefully crumpled the massive observatory, folding up its pieces of hardware,
so that it could fit on top of a rocket. Now, in space, it was time for Webb to
unfurl.
Read: Why is NASA sending its new
telescope a million miles away?
NASA had never
attempted such a complicated deployment before, and there were hundreds of ways
that the process could go wrong. If an
important part became stuck—really, truly stuck—NASA would have to face the
painful reality of abandoning its brand-new, $10 billion mission. Over the past
two weeks, Webb’s stewards have worked nearly nonstop, trading 12-hour shifts,
checking and rechecking data as hundreds of little mechanisms clicked into
action.
And this afternoon,
one final piece slid into place. The deployment, the scariest part of the
mission—the one that astronomers and engineers have dreaded for years—is over.
Rigby was in the mission-operations room at the Space Telescope Science
Institute, in Baltimore, when they called it. Webb, once compact and curled up,
has finally become a real space telescope.
The Webb telescope,
named after a former NASA administrator,
left Earth in a thundering launch from a rain-forest-ringed spaceport. The mood
in town in the days before launch was cheery optimism, with
an undercurrent of low-grade panic. When I asked the engineers and scientists
there about the launch, they would make a bit of a nervous face before
returning to a confident expression. The launch wasn’t the scary bit; Webb was
riding on one of the most reliable rockets in the industry. The deployment
sequence was another story. When I asked them about that, their face would
turn into a perfect imitation of the grimace emoji. Astronauts managed to build
the International Space Station in orbit, yes, and to repair the Hubble Space
Telescope when it needed fixing. But they wouldn’t be able to help Webb after
it launched. The mission is a very complicated series of “this has to work”
moments. If something had jammed during deployment and couldn’t get unstuck,
the next Hubble would have become a new piece of space junk.
The first “this has
to work” moment came just a half hour after Webb launched. The
observatory released its
solar panel, stretching it like an insect arching a wing toward the sun. Now
the observatory could power itself and could move on with ever more complex
steps on the checklist that has consumed the scientists until today.
Read: This isn’t the big
telescope debut NASA imagined
From there, the
deployment sequence reminded me of The Great British Bake Off, a cosmic version of
the Showstopper Challenge. Like the bakers, engineers had presented the world
with a picture of what their beautiful space telescope would look like in the
end, and now they had to make it happen. Astronomers around the world, eager to
use Webb’s data in their research, braced themselves for some kind of
catastrophe to topple the effort. They ran into a couple of issues but managed
to adjust; when some motors became a little overbaked by the sun,
for example, engineers shifted the observatory slightly away to reduce the
heat. Some employees tested positive for
the coronavirus and isolated themselves at home, where they continued working
remotely.
The release of Webb’s
diamond-shaped sun shield, the cover that will protect the observatory’s
mirrors and instruments from our star’s glare, was undoubtedly the most
stressful part. The five-tiered shield is the size of a tennis court, and each
layer is made of material as thin as a human hair.
Engineers had warned, in the days before launch, that this sun shield, floppy
and unpredictable, could snag and potentially doom the whole mission. But
earlier this week, each layer snapped into its final position,
just as engineers had imagined. “We’ve nailed it,” Alphonso Stewart, Webb’s deployment
systems lead, told reporters after it happened. And then this morning,
engineers completed the last big “has to work” moment, moving the telescope’s
mirrors into their final honeycomb shape.
Perhaps few are more
surprised at this outcome than some of the people who work on the mission
itself. Engineers had tested and retested every bit of the observatory on the
ground, and determined that they had done their best. But Webb, a project 25
years in the making, is extremely complex, and experienced some nerve-wracking
technical problems during development. NASA raised the specter of failure so
often that I began to wonder whether everyone was part of a mass delusion about
Webb’s chances, fueled by the agency’s mantra of “failure is not an option.”
Before the launch, I spoke with Mike Menzel, the mission’s lead systems
engineer at NASA, about the high-stakes deployment. “You convince yourself
that, Hey, you know, I’ve done
everything humanly possible,” he said. “Sure, there’s bad things that can happen. There’s a
lot of
bad things that can happen.” But those bad things haven’t happened, at least
not yet.
Webb still faces
other important milestones ahead: some adjustments to those gold-plated
mirrors; one more burst from the observatory’s thrusters to propel it deeper
into space. It will be weeks before Webb’s science instruments switch on and
start operating, and several months before the public sees the first glorious
images—before the mission can be truly deemed a success. Webb is still making
its way to an orbit 1 million miles from Earth,
where the telescope will have an unobscured view of the universe. A few days
ago, an amateur astronomer caught a glimpse of it in
the night sky: a faint, silver splinter—the sun shield, coated in
aluminum—cutting through the darkness. The light of distant galaxies has
already reached Webb’s shiny mirrors and still-slumbering science instruments.
Soon, the rest of the telescope will waken and start to make sense of it.
Marina Koren is a staff writer at The Atlantic
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