Attractive and repulsive light force

In summary, the article discusses a study on the optical force between planarly coupled nanophotonic waveguides. The force is found to be bipolar, with both attractive and repulsive components that can be switched by adjusting the relative phase of the interacting lightwaves. This has potential applications for new planar light force devices and circuits. The force is a purely classical effect and is not related to the attractive or repulsive properties of photons.
  • #1
junglebeast
515
2
http://www.sciencedaily.com/releases/2009/07/090713131556.htm

I'm confused...photons have no charge and no mass. This article seems to say there is an attractive and repulsive force between photons, but that can't be electromagnetic and it can't be gravity..so what are they talking about?
 
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  • #2
Well, there is a radiation pressure from light. Photons still have a momentum despite not having any mass and the transfer of the momentum will result in a force. But the article specifically states that these forces are not the product of radiation pressure so I think one would need to read the journal article to find out the specific mechanism.
 
  • #3
I agree- the article is not exactly clear. It is claimed the force is a different effect from laser tweezers (which is casued by induced dipoles), but no information about their model is presented in that website.
 
  • #4
Here is the full abstract of this paper:

State-of-the-art advances in nanoscale optomechanics allow light to be guided in free-standing waveguides or resonators1,2. In closely spaced devices, the coupling between the guided lightwaves gives rise to an optical force known as the ‘optical bonding force’3–6. Indeed, attractive optical force has been observed in substrate coupled devices7. According to recent theoretical predictions3, the optical force should show bipolar behaviour depending on the relative phase between in-plane coupled lightwaves. So far, such an in-plane optical force has not been measured. Here, we experimentally demonstrate a bipolar optical force between planarly coupled nanophotonic waveguides. Both attractive and repulsive optical forces are obtained. The sign of the force can be switched reversibly by tuning the relative phase of the interacting lightwaves. This highly engineerable force of bipolar nature could be used as the operation principle for a new class of planar light force devices and circuits on a CMOS-compatible platform.

So it definitely appears that (i) this is a guided EM wave (ii) it is then similar to Casimir effect of bounded wave (iii) it is analogous to the "bonding" and "antibonding" state that we get in chemical bonds that depends on the phase of the wavefunction.

Reading the paper quickly, it definitely appears that this is a purely classical effect. It has nothing to do with a photon having attractive or repulsive force.

Zz.
 

What is the difference between attractive and repulsive light force?

Attractive light force and repulsive light force are two different phenomena that occur due to the interaction between light and matter. Attractive light force occurs when light particles, known as photons, are absorbed by matter, causing an attraction between the two. On the other hand, repulsive light force occurs when photons are emitted from matter, causing a repulsion between them.

How does the attractive and repulsive light force affect the movement of matter?

The attractive and repulsive light force can have a significant impact on the movement of matter. When attractive light force is present, it can cause matter to be pulled towards the source of light. Similarly, repulsive light force can push matter away from the source of light. These forces are essential in phenomena such as photosynthesis and light-based propulsion systems.

What factors influence the strength of the attractive and repulsive light force?

The strength of the attractive and repulsive light force depends on several factors, including the intensity of the light, the type of matter involved, and the distance between the light source and the matter. Generally, the stronger the light, the stronger the force will be.

Can attractive and repulsive light force be used for practical applications?

Yes, attractive and repulsive light force has several practical applications. For example, in the field of nanotechnology, researchers are exploring the use of attractive and repulsive light force for manipulation and assembly of tiny particles. It is also being studied for potential use in optomechanical devices and light-based propulsion systems.

Is there ongoing research on attractive and repulsive light force?

Yes, there is ongoing research on attractive and repulsive light force, as scientists continue to explore its properties and potential applications. New discoveries and advancements in technology have allowed for more in-depth studies and potential practical uses for this phenomenon.

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