The fifth force: Is there another fundamental force of nature? – Astronomy Magazine

The four fundamental forces

Physics textbooks teach that there are four fundamental forces of nature: gravity, electromagnetism, and the strong and weak nuclear forces.

Were quite familiar with the first two forces. Gravity pins us to Earth and pulls us around the sun, while electromagnetism keeps the lights on. The other two forces are less obvious to us because they govern interactions at the tiniest scales. The strong force binds matter together, while the weak nuclear force describes the radioactive decay of atoms.

Each of these forces is carried by a kind of subatomic particle that physicists call a boson. For example, photons are the force particle in electromagnetism. Gluons carry the strong nuclear force. W and Z bosons are responsible for the weak nuclear force. Theres even a hypothetical boson for gravity called the graviton, though scientists havent proven its existence.

However, if you ask many theoretical physicists, theyll probably tell you we havent discovered all the forces of nature yet. Others are likely out there, just waiting to be discovered.For example, some suspect that discovering dark matter may reveal a weak new force.

And thats where the Hungarian group comes in. Without getting too lost in the details, the group shot protons at a thin sample of lithium-7, which then radioactively decayed into beryllium-8. As expected, this created pairs of positrons and electrons. However, the detectors also picked up excess decay signals that suggested the existence of a potential new and extremely weak particle. If it exists, the particle would weigh in at about 1/50 the mass of a proton. And because of its properties, it would be a boson a force-carrying particle.

But history is littered with reasons to be skeptical of new additions. In recent decades, other groups have also claimed to have found a fifth force, only to have their claims quietly fade away. Around the year 2000, one group proposed a new force, called quintessence, to explain the then-recent discovery of dark energy. In the 1980s, a group of physicists at MIT said theyd found a fifth force, dubbed hypercharge, that served as a kind of anti-gravity. Yet here we are with textbooks still teaching the same four fundamental forces we had decades ago.

That means the most likely explanation for the unexplained new signal is that theres something off with the Hungarian detectors setup. However, no one is disputing the data. The findings were peer-reviewed and published in the journal Physical Review Letters the same journal that published the discovery of gravitational waves. Even ideas in prestigious journals can sometimes be explained away as systematic error, but thats the way science works.

People are paying attention to see whether this is really a nuclear physics effect or whether its something systematic, Alves says. Its important to repeat those experiments ... to be able to test whether this is real or if its an artifact of the way theyre doing the experiment.

Quest to confirm

And thats precisely what her group hopes to do. Together with a small team, shes proposing to repeat the Hungarian experiment using equipment that already exists at Los Alamos. The national lab has been a leader in nuclear physics since the creation of the atomic bomb. And today, thousands of top physicists still work there on problems ranging from safeguarding and studying our nations nuclear arsenal, to pioneering quantum computers and observing pulsars.

As it turns out, they also have a detector nearly identical to the one used by the Hungarian team.

When you add all that together, Alves believes Los Alamos has exactly the right combination of facilities and expertise to repeat the experiment. Thats why her group quietly worked on their proposal for the last six months, and recently submitted a funding request for review. To gain approval, it will have to win out in an annual competition alongside other projects at the national lab.

In recent years, several other groups likewise have suggested theyll look for this force. But at the moment, Alves believes they're the main group in the U.S. working to confirm or refute the finding. If they cant gain approval, it may be years before a university or other group can secure both the funds and expertise to repeat the experiment with the same sort of parameters the Hungarians used.

As with all extraordinary claims, this potentially paradigm-shifting discovery will require extraordinary evidence before people accept it. So we may have to wait a while before we know whether the X17 particle and its potential fifth force will revolutionize physics, or take its place atop the dustbin of debunked and discarded discoveries.

See more here:

The fifth force: Is there another fundamental force of nature? - Astronomy Magazine

Related Posts

Comments are closed.