Near field of a diffraction grating?

In summary, the conversation discusses finding the near field length of an illuminated diffraction grating using the Talbot Length equation. However, it is noted that this may not be the complete story and the length may vary depending on the number of slits that are coherently illuminated. The suggested approach for finding the near field length involves calculating the angular spectrum at the aperture, propagating the field forward, and measuring the required length. The speaker also requests for a better equation or method for finding the near field length.
  • #1
pjbeierle
7
0
I know one can find the "near field" length of an illuminated diffraction grating by calculating the Talbot Length, but I also know this is not the complete story. What happens when you have instead a light source (like a laser beam) that coherently illuminates a certain number of grating bars/slits , say 8 or 9 open slits. How would one calculate the length of the near field then? it seems that the near field length would increase with the number of slits you coherently illuminate.

Can someone provide me with a better equation or method for finding the near field length?

Thanks in advance
 
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  • #2
The standard approach for a scalar field is to;

1. Calculate the angular spectrum at the aperture (This is the Fourier transform of the aperture function).
2. Propagate the field forward by adding an angle-dependent phase.
3. Measure the "length" you need.

Claude.
 

1. What is the near field of a diffraction grating?

The near field of a diffraction grating refers to the region close to the surface of the grating where the diffracted light is still undergoing interference and has not yet fully spread out.

2. How is the near field of a diffraction grating different from the far field?

In the far field, the diffracted light has fully spread out and the interference effects are no longer significant. The near field is closer to the grating and the interference effects are still dominant.

3. What factors affect the near field of a diffraction grating?

The near field of a diffraction grating is affected by the wavelength of light, the spacing of the grating lines, and the angle of incidence of the light on the grating.

4. Why is the near field of a diffraction grating important?

The near field of a diffraction grating is important because it allows for the manipulation and control of light at a small scale. This is useful in various applications such as optical data storage, sensing, and imaging.

5. Can the near field of a diffraction grating be observed?

Yes, the near field of a diffraction grating can be observed using near-field scanning optical microscopy (NSOM) or other specialized techniques. These methods allow for the visualization of the interference patterns in the near field region.

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