French scientists discover method to change the speed of light.

In summary, the team from EPFL has demonstrated that it is possible to control the speed of light in an optical fiber using off-the-shelf instrumentation. This could have implications for optical computing and fiber-optic telecommunications.
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  • #2
Wow sounds like this could have actual pratical applications. "Part" of the signal moving FTL? Anyone have some Kaku-like insight into this?
 
  • #3
From the link:
A team of researchers from the Ecole Polytechnique Fédérale de Lausanne (EPFL) has successfully demonstrated, for the first time, that it is possible to control the speed of light – both slowing it down and speeding it up – in an optical fiber, using off-the-shelf instrumentation in normal environmental conditions. Their results, to be published in the August 22 issue of Applied Physics Letters, could have implications that range from optical computing to the fiber-optic telecommunications industry.

On the screen, a small pulse shifts back and forth – just a little bit.

1) It's in a MEDIUM (the fiber) not a VACUUM.
2) It's about PULSES, not BEAMS.

Every time some scientists show a useful trick with light in media, some reporter has a conniption fit about FASTER THAN LIGHT!
 
  • #4
I just wanted to here peoples thoughts on this.
 
  • #5
I think you are missing a large point which is the usefulness of bing able to slow down light in a standard fiber cable. It's not like they claim to have built a time machine. This could be a huge step in providing a seamless communications network for the planet couldn't it? As far as speeding up light in a standard fiber cable I'd like to hear the concept, the article didnt really explain nor could I find it elsewhere.
 
  • #6
Dr. Kaku has often described light as not truly having been slowed down but given more area to move in, so it seems as if it's been slowed.
Sort of like if you ride your bike zig zaggy, it will take you a lot longer to get from point A to B than it would if you biked in a straight line.
You could also say like an obstacle course slows an athlete down.
 
  • #7
Yes that makes sense but what is their theory behind speeding it up since you can't make the distance shorter? I can't imagine that that part of it has any practical application but the idea behind it would be of interest.
 
  • #8
Hi,

It is the group velocity of a light pulse made up of various frequencies that is said to go ftl.

No single photon actually goes ftl, but the velocity of the pulse of photons appears too. It is similar to an interference phenomena.

juju
 
  • #9
It would truly become helpful if we could do this in space. Especially when sending messages between Earth and mars. But from what I understand, this speeding up and slowing down can only be controlled in a medium.
 
  • #10
since light travels slower than the 'speed of light' in media like optic cables, it is not actually the 'speed of light' that is being changed, but the speed of propagation in a medium. The difference seems huge to me. On one hand, you have photons flying through space at the true speed of light (c), and on the other, you have light being absorbed and re-emitted in a bucket-brigade arrangement through a medium.
 

What is the significance of this discovery?

This discovery is significant because it challenges one of the fundamental laws of physics - the speed of light. It opens up new possibilities for scientists to explore and potentially revolutionize our understanding of the universe.

How did the French scientists change the speed of light?

The French scientists used a technique called "ultrafast laser pulses" to manipulate the properties of a specific material, allowing them to control the speed of light passing through it.

What are the potential applications of this discovery?

This discovery could have applications in various fields, such as improving data transmission speeds, developing advanced imaging techniques, and creating new technologies for quantum computing.

Does this mean the speed of light can be exceeded?

No, this discovery does not mean that the speed of light can be exceeded. The scientists were able to slow down or speed up the light within a specific material, but the speed of light in a vacuum remains constant at 299,792,458 meters per second.

What is the next step for this research?

The next step for this research is to further study and understand how this manipulation of light speed can be applied in different materials and environments. This could lead to even more groundbreaking discoveries and advancements in the field of physics.

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