Classical description of laser light?

AI Thread Summary
Laser light can be understood as a finite plane wave, characterized by its coherent and monochromatic properties. Mathematically, laser light is treated using a wave picture that incorporates plane waves along the beam's direction while the amplitude decreases radially, often modeled with a Gaussian profile. This Gaussian approximation aligns well with actual measurements of laser beams. However, the classical description of lasers is not commonly utilized in practice, as the unique properties of laser light often require quantum mechanical treatment. Understanding these aspects is crucial for grasping the nature of laser light.
dipole
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It occurred to me today that I really don't know much about lasers. When dealing with electromagnetic waves, we always talk about plane waves, which are infinite in extent, or spherical waves, which spread out as they travel.

What then is laser light? A finite plane wave? How do you treat laser light mathematically using the wave picture?
 
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You have plane waves in the direction of the beam but to get a beam the amplitude of the waves has to go to zero radially. The profile used is usually gaussian - which is close to actual measurements. But we don't normally use the classical description for lasers.
 

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