Saturday, August 20, 2005
This Day:

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 Applied Physics Letters, could have implications that range from optical computing to the fiber-optic telecommunications industry.

Let there be light! (Courtesy: Griffith University)
On the screen, a small pulse shifts back and forth – just a little bit. But this seemingly unremarkable phenomenon could have profound technological consequences. It represents the success of Luc Thévenaz and his fellow researchers in the Nanophotonics and Metrology Laboratory at EPFL in controlling the speed of light in a simple optical fiber. They were able not only to slow light down by a factor of three from its well – established speed c of 3x106 meters per second in a vacuum, but they've also accomplished the considerable feat of speeding it up – making light go faster than the speed of light:D.
The telecommunications industry transmits vast quantities of data via fiber optics. Light signals race down the information superhighway at about 186,000 miles per second. But information cannot be processed at this speed, because with current technology light signals cannot be stored, routed or processed without first being transformed into electrical signals, which work much more slowly. If the light signal could be controlled by light, it would be possible to route and process optical data without the costly electrical conversion, opening up the possibility of processing information at the speed of light!!
This is exactly what the EPFL team has demonstrated. Using their Stimulated Brillouin Scattering (SBS) method, the group was able to slow a light signal down by a factor of 3.6, creating a sort of temporary optical memory. They were also able to create extreme conditions in which the light signal travelled faster than light in vacuum. And even though this seems to violate all sorts of cherished physical assumptions, relativity isn't called into question, because only a portion of the signal is affected:):).

(Hide) (Show)

8/20/2005   14 comments Post a Comment

14 Comments:

At August 24, 2005 7:54 AM, Blogger Wayne Smallman said...
I should imagine that by slowing light down, it may then be possible to store data if only momentarily.

In this sense, would it not be possible to given each 'packet' a priority much the same as existing Net traffic has?
 
At August 24, 2005 7:59 AM, Blogger Sray said...
I suppose so. But in existing net traffic, the packets' priority determines the way they are routed, and so it can be for light as well.

Another very interesting thing abt. light communication is the security that is built in, it is much harder to tap into light signal than it is into eletrical signals, as it is much harder to detect the EM field for light than it is for an moving electron...
 
At August 24, 2005 3:27 PM, Blogger Sray said...
Another small step to a fully optical system.
 
At August 25, 2005 3:58 PM, Blogger Wayne Smallman said...
"Another very interesting thing abt. light communication is the security that is built in, it is much harder to tap into light signal than it is into eletrical signals, as it is much harder to detect the EM field for light than it is for an moving electron..."

This is where quantum cryptography comes into its own...
 
At August 25, 2005 10:59 PM, Blogger Unknown said...
I know that relativity does allow light to go faster than c. But I also heard that information cant go faster than c. Something due to the fact that the phase velocity of a wave can be faster than c, but not the group velocity.
 
At August 25, 2005 11:31 PM, Blogger Sray said...
Emm... it is the other way around. Group velocity can exceed the speed of light, but not the phase velocity.

A real-life example would be the speed of a shadow. If you are running, then depending upon the light, your shadow might move faster than you. But the shadow inherently is not transmitting any new information, so the information (carried by you) is still moving at your speed!
 
At August 26, 2005 1:33 AM, Anonymous Anonymous said...
This comment has been removed by a blog administrator.
 
At August 26, 2005 1:33 AM, Anonymous Anonymous said...
This comment has been removed by a blog administrator.
 
At August 26, 2005 1:38 AM, Blogger abnegator said...
(Please delete the above two comments by anonymous they are posted by me by - multiple postbacks.)

What about this then - m' = m/(SqRt(1-Sq(v)/Sq(c))???? what you have written proves one of the assumptions of relativity wrong..but I have heard that it has not been proved wrong yet, if someone thinks its not true and has an experimental setup to prove it - they say there may be a flaw in the system not the theory of relativity..(well, i havent read Theory of relativity since 2 years but has it changed? :D ) - Abnegator.
(You comment box always gets messed up - it never downloads well on my machine)
 
At August 26, 2005 7:34 AM, Blogger Sray said...
Group velocity can be greater than the speed of light. This does not violate the theory of relativity, as according to theory, no information can be transmitted faster than the speed of light. The group velocity does not inherently carry any information, and so the theory of relativity is not violated!
 
At September 03, 2005 1:56 PM, Blogger abnegator said...
How is group velocity defined?
 
At September 07, 2005 9:58 AM, Blogger wise donkey said...
mind boggling, though i am unable to understand the technical parts of the discussion.
 
At December 27, 2005 2:13 PM, Anonymous Anonymous said...
hey but just chech by what they mean by increasing the speed of light. I think the speed they are refering to is the phase velocity and not the group velocity.
So i dont think it is info that will be able to travel at greater than speed of light.
 
At July 20, 2011 4:29 AM, Anonymous yves saint laurent shoes on sale said...
Ecsaling.com gets together the most fashionable styles of shoes shop,including yves saint laurent shoes on sale、yves saint laurent sandals sale、yves saint laurent shop online、cheap yves saint laurent sandals、buy yves saint laurent shoes、 and so on. We aimed to provide customers world wide shoes with high quality and rather low price and to be the best online shoes store that satisfy all dear customers and we have been working hard on that. Thanks for your time. Go for your lovely saint laurent shoes!
 

Post a Comment