Drop in power in a directed microwave beam?

In summary, when considering the drop in power in a directed microwave beam, it is unlikely to be significant for small distances, but for very large distances it is a factor to consider. The typical length scale for this is determined by the antenna diameter and wavelength. Focusing the beam over a longer distance may not be effective. The quality of the approximation also depends on the length scale.
  • #1
Patrick Pihl
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Would it be a drop in power as the square of the distance in a directed microwave beam? Thanks!
 
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  • #2
For small distances: probably not.
For very large distances: yes.

The typical length scale is (antenna diameter)^2 / (wavelength), focusing something over a longer distance does not work.
 
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  • #3
Thanks! What would be a short / large distance in this context?
 
  • #4
Did you see my comment about the length scale? If you are at 5+ times this length scale the inverse squared distance is a good scaling law. If you are below that length, it does not have to be a good approximation. It might be, but that depends on the beam then. In between, things are in between those two cases.
 
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Related to Drop in power in a directed microwave beam?

1. What causes a drop in power in a directed microwave beam?

A drop in power in a directed microwave beam can be caused by a variety of factors. It could be due to interference from other electronic devices, changes in atmospheric conditions, or equipment malfunction.

2. How can a drop in power be detected in a directed microwave beam?

A drop in power can be detected by monitoring the signal strength or power levels of the microwave beam. This can be done using specialized equipment such as power meters or spectrum analyzers.

3. Can power drops in a directed microwave beam be prevented?

Yes, there are measures that can be taken to prevent power drops in a directed microwave beam. These include proper placement and alignment of the microwave antenna, shielding from interference, and regular maintenance of equipment.

4. What impact does a drop in power have on the performance of the microwave beam?

A drop in power can significantly affect the performance of a microwave beam. It can lead to decreased signal strength, lower data transmission rates, and even complete loss of connectivity in some cases.

5. How can a drop in power in a directed microwave beam be fixed?

The appropriate solution for fixing a drop in power in a directed microwave beam will depend on the cause of the drop. This could involve adjusting antenna placement, replacing faulty equipment, or implementing interference-reducing measures.

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