One of the most stubborn problems in physics today is the fact that our two best theories to explain the Universe – general relativity and quantum mechanics – function perfectly well on their own, but as soon as you try to combine them, the maths just doesn’t work out.

But a Stanford theoretical physicist has just come up with a new equation that suggests the key to finally connecting the two could be found in bizarre spacetime tunnels called wormholes.

The equation is deceptively simple: ER = EPR.

It’s not made up of numerical values, but instead represents the names of some key players in theoretical physics.

On the left side of the equation, the ER stands for Einstein and Nathan Rosen,and refers to a 1935 paper they wrote together describing wormholes, known technically as Einstein-Rosen bridges.

On the right side of the equation, EPR stands for Einstein, Rosen and Boris Podolsky, who co-wrote another paper that year describing quantum entanglement.

Back in 2013, physicist Leonard Susskind from Stanford University and Juan Maldacena from the Institute for Advance Study at Princeton suggested that the two papers could be describing pretty much the same thing – something that no one else in the field had previously considered, including Einstein himself.

Now Susskind is back to discuss the implications if he’s in fact right. But first, let’s look at the individual parts of this equation.

First implied by Einstein’s theory of general relativity, wormholes are like tunnels between two places in the Universe.

In theory, if you fell in one side of a wormhole, you’d appear on the other side almost instantaneously, even if it happened to be on the exact opposite side of the Universe.

But wormholes aren’t just portals to another place in the Universe, they’re portals between two *times* in the Universe. Like Carl Sagan once said, “You might emerge somewhere else in space, some when-else in time.”

Quantum entanglement, on the other hand, describes the way that two particles can interact in such a way that they become inexorably linked, and essentially ‘share’ an existence.

This means that whatever happens to one particle will directly and instantaneously affect the other – even if it’s light-years away.

Okay, now let’s combine the two.

In his new paper, Susskind proposes a scenario where hypothetical Alice and Bob each take a bunch of entangled particles – Alice takes one member of each pair, and Bob takes the other, and they fly off in opposite directions of the Universe in their hypothetical hypersonic jets.

Once in their separate positions, Alice and Bob smash their particles together with such great force, they create two separate black holes.

The result, says Susskind, is two entangled black holes on opposite sides of the Universe, linked in the middle by a giant wormhole.

“If ER = EPR is right, a wormhole will link those black holes; entanglement, therefore, can be described using the geometry of wormholes,” says Tom Siegfried over at *Science News.*

“Even more remarkable … is the possibility that two entangled subatomic particles alone are themselves somehow connected by a sort of quantum wormhole,” Siegfried adds.

“Since wormholes are contortions of spacetime geometry – described by Einstein’s gravitational equations – identifying them with quantum entanglement would forge a link between gravity and quantum mechanics.”

Is Susskind right? It’s impossible to say just yet, because while he’s published his paper on pre-press website arXiv.org to be openly scrutinised by his peers, it’s yet to go through the formal peer-review process. Source ScienceAlert