ADVERTISEMENT
Nautilus Members enjoy an ad-free experience. or Join now .
Sign up for the free Nautilus newsletter:
science and culture for people who love beautiful writing.
NL – Article speedbump

The Dark Sector Lab includes the BICEP2 telescope, seen on the left.BICEP Keck

Nautilus Members enjoy an ad-free experience. Log in or Join now .

Science giveth, and science taketh away. What appeared earlier this year to be a long-sought glimpse of ancient ripples in spacetime now seems to have been schmutz in astronomers’ eyes.

In March, sky-gazers using a telescope at the South Pole called BICEP2 held a press conference announcing that they’d seen curlicues in the remnant glow from the Big Bang. The swirls, they said, were the imprints of gravitational waves produced nearly 14 billion years ago. These swirls would bolster the idea that the infant cosmos expanded faster than the speed of light during a brief growth spurt called inflation.

Researchers acknowledged that other telescopes would have to verify the signal for it to be trusted, but the news was greeted with jubilation, popped corks and talk of Nobel prizes. That giddiness (along with some caution that the work needed confirmation) was apparent in a roundup of quotes gathered by Nautilus the day after the result was announced at a Harvard press conference on March 17th. If confirmed, scientists said the find would “go down as one of the greatest discoveries in the history of science” and would be “bigger than [turning up] the Higgs boson.”

ADVERTISEMENT
Nautilus Members enjoy an ad-free experience. Log in or Join now .

What a difference six months makes. Not long after the announcement, several groups pointed out that dust in our own galaxy could produce curlicues like those observed by BICEP2, throwing the gravitational wave interpretation into doubt. Now, observations made by Europe’s Planck satellite have borne out that possibility, suggesting that at least some—and maybe all—of the curlicue signal is caused by dust.

The new data shows that the light swirls measured by Planck, including confidence intervals (blue areas), lines up well with the expected polarization from the gravity-wave signal reorted by BICEP2. This means that dust seems to explain the signal well.Planck Collaboration

Why was Planck able to survey the galaxy’s dust and BICEP2 wasn’t? It comes down to the fact that the curlicues produced by dust brighten “more dramatically” at higher frequencies of radiation than those from gravitational waves, explains Natalie Wolchover at Quanta. So a mission that measures the sky at a range of frequencies, as Planck did from 2009 to 2013, is needed to more accurately estimate the amount of dust in the galaxy; BICEP2, in contrast, measured just one. “With a single frequency, you can’t be sure what’s causing that signal,” says Princeton physicist Paul Steinhardt, the subject of this issue’s Ingenious video Q&A.

The story is not yet over, since Planck and BICEP2 are now trying to merge their observations to get an even better handle on how much dust lies in BICEP2’s patch of sky. But judging from expert reactions quoted below, the initial waves of excitement about the result have all but crashed, leaving behind only a faint hope that not all of the curlicue signal is from dust.

ADVERTISEMENT
Nautilus Members enjoy an ad-free experience. Log in or Join now .


Inflation Deflation:

Unfortunately it now does not look as if there is a realistic chance that what BICEP2 reported was anything more than a very precise measurement of dust.
—Sesh Nadathur in his blog Blank On The Map

The BICEP analysis gave a degree of confidence that I think people agree was based on an overoptimistic estimate of what the dust could have been, and not based on data.
—Planck team member Jo Dunkley in New Scientist

ADVERTISEMENT
Nautilus Members enjoy an ad-free experience. Log in or Join now .

We can’t exclude that the entirety of our signal is from dust.
—BICEP2 team member Brian Keating in Quanta magazine

They should have been much more cautious in their initial presentation. They should not have claimed measuring a primordial B-mode because the uncertainty [in the amount of dust] is and was simply too large.
—Lyman Page in Quanta

BICEP2 did indeed observe the signal that they said they observed; but the smart money right now is betting that the signal didn’t come from the early universe.
—Sean Carroll in his blog Preposterous Universe

It doesn’t leave a lot of wiggle room…and it seems clear that at least the majority of the signal is caused by dust.
—Raphael Flauger in The New York Times

ADVERTISEMENT
Nautilus Members enjoy an ad-free experience. Log in or Join now .

Our Galaxy is a rather grubby place to live. Even the windows are filthy.
—Peter Coles in his blog In the Dark

Definitely they detected something. The significance of that depends on what the interpretation is. If it’s dust, it has no cosmological significance whatsoever.
—Avi Loeb in Quanta

It looks like dust. Too bad—gravitational waves would be much more exciting.
—David Spergel in The Washington Post


ADVERTISEMENT
Nautilus Members enjoy an ad-free experience. Log in or Join now .

Electromagnetic Rays of Hope:

What you can say for sure is that the original analysis was insufficient to say the signal is really there. It doesn’t mean for sure that they haven’t seen anything.
—Andrew Pontzen in The Guardian

The conclusion really is that we need to analyse the data together—BICEP and Planck—to get the right cosmological [versus] galactic [dust] signal. It’s really too early to say.
—Planck team member Cécile Renault on BBC News

I’m not going to say, “Goddamn it, there’s a cosmological signal there.” I’m not going to say there isn’t, either.
—BICEP2 team member Clement Pryke in Science

ADVERTISEMENT
Nautilus Members enjoy an ad-free experience. Log in or Join now .

This is good news and bad news for gravitational wave detection. Good news is that there are regions of the sky with low dust polarization signal. The bad news is that BICEP2 did not look at one of these regions.
—David Spergel in The Washington Post

I can promise that we are approaching the analysis with a completely unbiased attitude. We are as eager as everyone else to see the uncertainties reduced here, whatever the final answer.
—BICEP2 team leader John Kovac in Quanta

Planck and BICEP2 have differing strengths and weaknesses and a joint analysis will benefit from considerable complementarity… Between them they may be able to identify an excess source of polarization over and above the foreground, so it is not impossible that there may a gravitational wave component may be isolated. That will be a tough job, however, and there’s by no means any guarantee that it will work.
—Peter Coles in his blog In the Dark

BICEP2 validated our whole experimental approach. We now have receivers operating at a different frequency that is much less sensitive to dust emission. We are deploying BICEP3, which will further improve the sensitivity in this channel. So basically if BICEP2 result doesn’t turn out to be a grand slam after all, we are still playing with the bases loaded.
—BICEP2 team member Chao-Lin Kuo in The Washington Post

ADVERTISEMENT
Nautilus Members enjoy an ad-free experience. Log in or Join now .

It is amazing that a precise measurement of the cosmos can be made, discussed in fullness, and refuted by another measurement in such a short amount of time. It is testament to a healthy field.
—Lyman Page in The New York Times


Maggie McKee is a freelance science writer in Boston.

close-icon Enjoy unlimited Nautilus articles, ad-free, for less than $5/month. Join now

! There is not an active subscription associated with that email address.

Join to continue reading.

You’ve read your 2 free articles this month. Access unlimited ad-free stories, including this one, by becoming a Nautilus member — 25% off for a limited time during our seasonal sale.

! There is not an active subscription associated with that email address.

This is your last free article.

Don’t limit your curiosity. Access unlimited ad-free stories like this one, and support independent journalism, by becoming a Nautilus member — 25% off for a limited time during our seasonal sale.