Energy transfer due to evanescent fields

In summary, the conversation discusses energy transfer between two bodies through their evanescent fields. The speaker is interested in understanding how this energy transfer varies with the distance between the bodies. They mention that there will be energy transfer due to surface polaritons, but they are more interested in other frequencies. The conversation also references a paper that discusses different evanescent power transfer circuits and their efficiencies based on radius.
  • #1
Karthiksrao
68
0
Hi,

When 2 bodies are close together such that their evanescent fields are interacting, what sort of energy transfer can I expect to take place between the bodies ? That is, how can I expect the energy transfer to vary with gap (i.e exponential variation? some sort of a power law? )

There will be energy transfer due to surface polaritons - but I am more interested in energy transfer due to frequencies other than that which support surface polaritons.


Thanks,
Karthik
 
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  • #2
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Related to Energy transfer due to evanescent fields

What is energy transfer due to evanescent fields?

Energy transfer due to evanescent fields is the process by which energy is transferred between two objects without direct contact, through the use of evanescent waves. These waves are created when an electromagnetic field interacts with a material interface, causing energy to be transmitted across the interface.

How does energy transfer occur through evanescent fields?

Energy transfer through evanescent fields occurs through the phenomenon of tunneling, where particles or waves are able to pass through barriers that would normally be impenetrable. In the case of evanescent fields, the barrier is the material interface, and the energy is able to pass through due to the creation of evanescent waves.

What are some applications of energy transfer through evanescent fields?

Energy transfer through evanescent fields has a variety of applications, including in optical devices such as fiber optics and waveguides. It is also used in microscopy techniques such as total internal reflection fluorescence microscopy, and in sensors for detecting molecules or particles at the surface of a material.

What factors affect the efficiency of energy transfer through evanescent fields?

The efficiency of energy transfer through evanescent fields can be affected by several factors, including the distance between the two objects, the properties of the material interface, and the intensity and angle of the incident electromagnetic field. Additionally, the wavelength and polarization of the evanescent wave also play a role in the efficiency of energy transfer.

Are there any limitations to energy transfer through evanescent fields?

While energy transfer through evanescent fields has many potential applications, it also has some limitations. These include the distance over which the energy can be transferred, which is typically limited to a few wavelengths, and the fact that the energy transfer is highly dependent on the properties of the material interface. Additionally, the efficiency of energy transfer may decrease over time as the evanescent waves decay.

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