Impact Lab


Subscribe Now to Our Free Email Newsletter
June 26th, 2014 at 11:51 am

Australian physicists have simulated time travel

time travel

Using photons, scientists have simulated a way that quantum particles could travel through a wormhole back in time.

University of Queensland in Australia physicists have used photons – single particles of light – to simulate quantum particles traveling through time and to study their behavior.

 

 

IL-Header-Communicating-with-the-Future

They were hoping to find out more about whether time travel would be possible at the quantum level – a theory first predicted in 1991.

In the study, the researchers simulated the behavior of a single photon that travels through a wormhole and interacts with its older self. This is known as a closed timelike curve - a closed path in space-time that returns to the same starting point in space but at an earlier time. Their study is published in Nature Communications.

They did this by making use of a mathematical equivalence between two cases, lead author Martin Ringbauer told The Speaker.

In the first case, photon one “travels trough a wormhole into the past, then interacts with its older version,” Ringbauer explained. And in the second case, photon two travels through normal space-time, but interacts with another photon that is trapped inside a closed timelike curve forever.

“We used single photons to do this but the time-travel was simulated by using a second photon to play the part of the past incarnation of the time traveling photon,” said University of Queensland physics professor Tim Ralph.

The research will hopefully help researchers bridge the gap between two critical theories, said Ringbuaer.

“The question of time travel features at the interface between two of our most successful yet incompatible physical theories – Einstein’s general relativity and quantum mechanics,” Ringbuaer explained.

“Einstein’s theory describes the world at the very large scale of stars and galaxies, while quantum mechanics is an excellent description of the world at the very small scale of atoms and molecules,” he added.

According to Einstein’s theory, it could be possible to travel back in time by following a closed timelike curve. However physicists and philosophers have struggled with this theory given the paradoxes such as the grandparents paradox, where a time traveler could prevent their grandparents from meeting, thus preventing the time traveler’s birth in the first place.

But in 1991 it was suggested that time travel in the quantum world would avoid these kinds of paradoxes because the properties of quantum particles are “fuzzy” and “uncertain” – and this is the one of the first times anyone has simulated the behavior of such a scenario.

“We see in our simulation (as was predicted in 1991) how many effects become possible, which are forbidden in standard quantum mechanics,” said Ringbauer. “For example it is possible to perfectly distinguish different states of a quantum system, which are usually only partially distinguishable. This makes quantum cryptography breakable and violates Heisenberg’s uncertainty principle. We also show that photons behave differently, depending on how they were created in the first place.”

Photo credit: Science Alert

Via Science Alert

IL-Header-Communicating-with-the-Future

Comments are closed.

Colony square1