Many physicists consider string theory our best hope for combining quantum physics and gravity into a unified theory of everything. Yet a contrary opinion is that the concept is practically pseudoscience, because it seems to be nearly impossible to test through experiments. Now some scientists say we may have a way to do exactly that, thanks to a new conjecture that pits string theory against cosmic expansion.
What it comes down to is this question: Does the universe show us all of its quantum secrets, or does it somehow hide those details from our classical eyes? Because if the details can be seen, string theory might not be able to explain them.
One way to rule out the idea is if we can prove that it does not predict an essential feature of the universe. And string theory, it turns out, has a persistent problem describing the most popular account of what went on during the universes earliest moments after the big bang: inflation.
Inflation is the most compelling explanation for why our universe looks the way it does and where the structure came from, says Marilena Loverde, a physicist at Stony Brook University. Inflation explains how, in a sense, we got everything in the universe from nothing. The theory says that the early universe went through a phase of extreme expansion. The process magnified random blips in the quantum vacuum and converted them into the galaxies and other stuff around us.
Theorists have had difficulty, though, showing how, or if, inflation works in string theory. The most promising road to doing sothe so-called KKLT constructiondoes not convince everyone. It depends who you ask, says Suddhasattwa Brahma, a cosmologist at McGill University. It has been a lingering doubt in the back of the minds of many in string theory: Does it really work?
In 2018 a group of string theorists took a series of suggestive results and argued that this difficulty reflected an impossibilitythat perhaps inflation just cannot happen in the theory. This so-called de Sitter swampland conjecture claimed that any version of the concept that could describe de Sitter spacea term for the kind of universe in which we expect inflation to take placewould have some kind of technical flaw that put it in a swampland of rejected theories.
No one has proved the swampland conjecture, and several string theorists still expect that the final form of the theory will have no problem with inflation. But many believe that although the conjecture might not hold up rigidly, something close to it will. Brahma hopes to refine the swampland conjecture to something that would not bar inflation entirely. Maybe there can be inflation, he says. But it has to be a very short period of inflation.
Any limit on inflation would raise the prospect of testing string theory against actual data, but a definite test requires a proof of the conjecture. According to Cumrun Vafa, a physicist at Harvard University and one of the swampland conjectures authors, researchers can start to build a case for the idea if they can connect it to trusted physical laws. There are two levels of it, he says. First is being more confident in the principle. And then theres explaining it.
One approach to building confidence might try to explain what sort of physical rule would limit inflationor, to put the inquiry in a more practical way: How could string theorists hope to persuade cosmologists to reconsider a favored theory?
These kinds of questions led Vafa and his Harvard collaborator Alek Bedroya to seek out a physics-based reason that could justify the swampland conjecture. They found a candidate in a surprising place. It turns out that inflation already has an unsolved problem looking for a solution: theorists have not all agreed on what happens to the very tiniest quantum details when expansion occurs and magnifies the static of the vacuum.
Physicists lack a working theory that describes the world below the level of the so-called Planck length, an extremely minute distance where they expect the quantum side of gravity to appear. Proponents of inflation have typically had to assume that they can one day work those trans-Planckian details into it and that they will not make a big difference to any predictions. But how that step will happen remains an open question.
Vafa and Bedroya have given a simple answer: forget about it. Their new trans-Planckian censorship conjecture asserts that extremely tiny quantum fuzziness should always stay extremely tiny and quantum, despite the magnifying effect of expansion. If this idea is true, it implies limits on the amount of inflation that could happen, because too much of it would mean too much magnification of the trans-Planckian details.
So in a new twist for string theory, researchers can actually look to the sky for some answers. How much inflation is too much for the censorship conjecture? The situation is a bit complicated. Several different models for the actual process of inflation exist, and astrophysicists do not yet have data that confirm any one of them, or the basic idea as a whole, as the correct description of our universe. Researchers have begun working out the limits the new conjecture puts on the many versions of inflation. Some have a built-in way to hide trans-Planckian details, but Loverde says that many of the typical models conflict with the conjecture.
One clear conflict comes from primordial gravitational waves. These waves, which theorists expect arise during the inflationary phase, would have left behind a faint but distinct sign in the cosmic microwave background. So far, they have not been seen, but telescopes are actively looking for them. The censorship conjecture would only allow a ridiculously, unobservably small amount, Loverde saysso small that any sign of these waves would mean the conjecture does not apply to our universe unless theorists can come up with a different explanation for them.
Does this conjecture really amount to a test of string theory? No,it is too early to say that, according to Vafa. The principles are still just conjecturesfor now. The more one connects these principles togethersurprising, unexpected relationsthe more it becomes believable why its true, he says.
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