Let There Be Light! Photo Shows Light As Wave And Particle For First Time

[Fanghawk]

Let There Be Light! Photo Shows Light As Wave And Particle For First Time

According to quantum mechanics light acts as both a particle and a wave, but now we can finally see what that looks like.

Quantum mechanics is an incredibly complex field for a simple reason: So much of what it studies can be two different things at the exact same time. <a href=http://www.escapistmagazine.com/news/view/139585-Scientists-Slow-Down-The-Speed-of-Light>Light is a great example since it behaves like both a particle and a wave, but only appears in one state during experiments. Mathematically speaking, we have to treat light as both ways for the universe to make sense but actually confirming it visually has been impossible. Or at least that was the case until scientists from Switzerland's École polytechnique fédérale de Lausanne developed their own unique photography method.

The image was created by shooting a pulse of laser light at a metallic nanowire to make its charged particles vibrate. Next the scientists fired a stream of electrons past the wire holding the trapped light. When the two collided, it created an energy exchange that could be photographed from the electron microscope.

So what does this mean when looking at the photograph? When the photons and electrons collide, they either slow down or speed up, which creates a visualization of a light wave. At the same time the speed change appears as a quanta - packets of energy - transferred between the electrons and photons as particles. In other words, it's the first case of observing light particles and waves simultaneously.

"This experiment demonstrates that, for the first time ever, we can film quantum mechanics - and its paradoxical nature - directly," research leader Fabrizio Carbone explained. This has enormous implications not only for quantum research, but also quantum-based technologies still in development. "Being able to image and control quantum phenomena at the nanometer scale like this opens up a new route towards quantum computing," he continued.

The experiment results were posted in today's <a href=http://www.nature.com/ncomms/2015/150302/ncomms7407/full/ncomms7407.html>Nature Communications, which will help other scientists build on this research with further studies. After all, it's not like we've unlocked all of light's secrets yet - <a href=http://www.escapistmagazine.com/news/view/139967-The-Science-Behind-Why-The-Dress-Changes-From-Blue-To-White>we can barely even tell what color a dress is sometimes.

Source: Factor

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[hentropy]

Now Mr. Lemon, if that is your real name, we all know all the mysteries about light was settled with the writing of Genesis 1:3. Next you'll have these so-called scientists trying to "explain" Adam and Eve and the origin of man.

 

[flying_whimsy]

That is really cool. I guess it's one of those things that, if you think about it, was supposed to observable at some point; sort of like seeing water in all three of its states at once. Just the same, that is really cool and definitely wasn't something I would have thought of.

I am getting a little sick of scientists throwing quantum computers in our faces as the justification/implication for some of these experiments. They sound like "it'll be out eventually" valve and this stuff is cool enough on its own.

 

[josemlopes]

Cool, I guess, wont really start any conversation with it though...

 

[Adam Jensen_v1legacy]

This is a massive achievement. It goes towards figuring out how to observe quantum processes without them losing their quantum state. That kind of technology will probably lead to all kinds of technological breakthroughs. Possibilities are literally unknown at this time, but exciting nonetheless. Quantum computing is obviously one of the areas that would benefit from it.

 

[Alexander Kirby]

Still trying to figure out what exactly is happening in the picture, a little more explanation of the picture would have been nice; what the colours mean, which way the light is travelling across the material, why the height increases from one side to the other, etc.

 

[Lightknight]

You know, I did submit this story through the "tip us" option around mid-day yesterday. You missed a real opportunity to credit a story about the nature of light as being submitted by "Lightknight"

 

[crimson5pheonix]

Still trying to figure out what exactly is happening in the picture, a little more explanation of the picture would have been nice; what the colours mean, which way the light is travelling across the material, why the height increases from one side to the other, etc.

I'm not an expert, but reading the paper makes me think that the graph represents the number of photon/electron interactions detected. Read from right to left as start of the experiment to the end of the experiment. It starts with a high number of detections as the string vibrates and they diminish as time goes on. The color coding is just to another way to read the number of detections. Or it's how energetic the interaction are.