Physicists say they’ve manipulated ‘pure nothingness’ and observed the fallout


From > January 26, 2017 > SilentCircle > Uncategorized

According to quantum mechanics, a vacuum isn’t empty at all. It’s actually filled with quantum energy and particles that blink in and out of existence for a fleeting moment – strange signals that are known as quantum fluctuations.

For decades, there had only ever been indirect evidence of these fluctuations, but back in 2015, researchers claimed to have detected the theoretical fluctuations directly. And now the same team says they’ve gone a step further, having manipulated the vacuum itself, and detecting the changes in these strange signals in the void.

We’re entering the territory of high-level physics here, but what’s really important in this experiment is that, if these results are confirmed, the researchers might have just unlocked a way to observe, probe, and test the quantum realm without interfering with it.

That’s important, because one of the biggest problems with quantum mechanics – and our understanding of it – is that every time we measure and observe a quantum system, we destroy it, which doesn’t bode well when we want to tease out what’s really going on in the quantum world.

This is where the quantum vacuum comes into it.

First of all, let’s think of a vacuum in a classical way – as space entirely devoid of matter, with the lowest possible energy. There are no particles there, and nothing to interfere with pure physics.

But a byproduct of one of the most fundamental principles in quantum mechanics, Heisenberg’s uncertainty principle, states that there’s a limit to how much we can know about quantum particles, and as a result, a vacuum isn’t empty, it’s actually buzzing with its own strange energy, and filled with particle-antiparticle pairs that appear and disappear randomly.

These are more like ‘virtual’ particles than physical matter, so ordinarily you can’t detect them. But although they’re invisible, like most things in the quantum world, they subtly influence the real world.

These quantum fluctuations produce randomly fluctuating electric fields that can affect electrons, which is how scientists first indirectly demonstrated their presence back in the 1940s.

For decades, that was all we had to go on.

Then, in 2015, a team led by Alfred Leitenstorfer from the University of Konstanz in Germany claimed they’d directly detected these fluctuations, by observing their influence on a light wave. The results were published in Science.

To do this, they fired a super short laser pulse – lasting only a few femtoseconds, which is a millionth of a billionth of a second – into a vacuum, and were able to see subtle changes in the polarisation of the light. They said these changes were caused directly by the quantum fluctuations.

It’s a claim that’s still being debated, but the researchers have now taken their experiment to the next level by ‘squeezing’ the vacuum, and say they’ve been able to observe the strange changes in the quantum fluctuations as a result.

This isn’t just further evidence of the existence of these quantum fluctuations – it also suggests that they’ve come up with a way to observe experiments in the quantum world without messing up the results, which is something that would ordinarily destroy the quantum state.

“We can analyse quantum states without changing them in the first approximation,” said Leitenstorfer.

Usually when you’re looking for the effects of quantum fluctuations on a single light particle, you’d have to detect that light particle, or amplify it, in order to see the effect. And this would remove the ‘quantum signature’ left on that photon, which is similar to what the team did in the 2015 experiment.

This time, instead of looking at the changes in quantum fluctuations by absorbing and amplifying photons of light, the team studied light on the time domain.

That sounds weird, but in a vacuum, space and time behave in the same way, so it’s possible to examine one to learn more about the other.

Doing this, the team saw that when they ‘squeezed’ the vacuum, it worked kind of like squeezing a balloon, and redistributed the strange quantum fluctuations within it.

At some points, the fluctuations became way louder than the background ‘noise’ of an unsqueezed vacuum, and in some parts, they were quieter.

Leitenstorfer compares this to a traffic jam – when there’s a bottleneck that cars build up behind, in front of that point, the density of cars will decrease again.

The same thing happens in a vacuum, to a certain extent – as the vacuum gets squeezed in one place, the distribution of the quantum fluctuations changes, and they can speed up or slow down as a result.

That effect can be measured on the time domain, which you can see below charted out on space-time. The bump in the middle is the ‘squeeze’ in the vacuum:

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