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| quote: | Originally posted by Grrrrr
Materials such as water are made up of particals. Here is how a photon travels from one end of a drop of water to another (same principle for other materials)
A random photon hits the first partical on the outside of this drop of water and gets absorbed by the partical giving it more energy. This excess energy is then released as another photon.
This newly emitted photon then travels through a very very small gap (vaccuum) to the next partical. When travelling through this 'gap' the light travels at its full and only possible speed.
It hits the next partical increasing it's energy and once again a new photon is emitted, travelling through another gap to the next partical
etc etc etc
The photon never travels any slower than 'the speed of light' (that sounds a little silly but you know what i mean. The reason it appears to travel slower it because of the time takne for the photon to be absorbed and a new one to be emitted by each of the particals it come in contact with
'n00b' |
This is correct, if a little beside the point.
The real discovery here is not the ability to "slow down" light, that's been done many times - in fact light has even been "stopped" in a laboratory setting:
http://www.news.harvard.edu/gazette...-stoplight.html
The difference is that IBM is accomplishing this with a significantly different technique: one which is far more suitable for integration into hardware to be mass produced.
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