Clarifying Coherent and Incoherent Sum of Plane Waves

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In Kohler illumination, each point in the light source is treated as a plane wave, resulting in an incoherent sum of these waves illuminating the object. When using a coherent laser like a He-Ne laser, the total illumination at the object can vary based on beam manipulation. If the laser beam remains 'raw,' it will consist of multiple plane waves, while spatially filtering and expanding the beam can yield a near single plane wave at the aperture stop. The presence of speckle at the sample plane is due to the interference of these coherent waves, which can be mitigated through spatial filtering. Understanding these principles is crucial for accurately modeling illumination in imaging systems.
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Hi everyone,

I understand that in Kohler illumination, each point at the source is converted into a plane wave illuminating the object. From what I understand, the total illumination at the object is the incoherent sum of the plane waves. Suppose my source is an ideal coherent laser i.e He-Ne laser. Is the total illumination at the object just a single plane wave?

Could anyone clarify this for me? I am very confused about the coherent and incoherent sum of plane waves at the object. Thank you
 
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Kohler illumination is a little more than what you stated, but close enough. Using a source with some spatial coherence (the laser has high temporal coherence but lower spatial coherence) will result in 'speckle' at the sample plane from interference. Spatially filtering the laser will, AFAIK, remove speckle.
 
Andy Resnick said:
Kohler illumination is a little more than what you stated, but close enough. Using a source with some spatial coherence (the laser has high temporal coherence but lower spatial coherence) will result in 'speckle' at the sample plane from interference. Spatially filtering the laser will, AFAIK, remove speckle.

Hi Andy,

Thank you for your response. I understand how the Kohler illumination reduces speckle. So I am writing this program to model an imaging system. So my problem is with the modelling of the illumination on the object. With a He-Ne laser, is the illuminating beam a coherent sum of plane waves or just a single plane wave?
 
It depends on what you've done to the beam. If it's a 'raw' Gaussian , then you decompose the field accordingly. If the beam is expanded and clipped by the aperture stop, then your decomposition will be altered. If you've spatially filtered and expanded the beam, then you have close to a single plane wave at the aperture stop.
 

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