What is Spatial and Temporal Coherence.

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Spatial coherence refers to the correlation of wave phases at different points in space, while temporal coherence relates to the correlation of wave phases at different times. A wave is considered coherent if knowing the amplitude at one point allows for accurate predictions at another point, with coherence measured on a scale from 0 to 1. High spatial coherence means that the phase can be predicted across a beam, while high temporal coherence allows for phase predictions over time. The concepts are illustrated through laser examples, where spatial coherence pertains to a screen's surface and temporal coherence pertains to future measurements at the same location. Understanding these distinctions clarifies the nature of wave behavior in different contexts.
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Can anyone provide a simple explanation of spatial and temporal. I can't seem to understand the Wikipedia page on Coherence.
 
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The simplest way to understand the coherence of a wave is by considering two points in space or in time, dependng on if you are considering spatial or temporal coherence.

If you know the value of the amplitude of a wave at point A, what do you know about the amplitude at point B? If knowing the value at A tells you exactly the value at B, then it is coherent (coherence = 1). If knowing the value at A tells you nothing about the value at B, then it is incoherent (coherence = 0). If knowing the value at A tells you the value at B with a certain uncertainty, then you are somewhere inbetween (0 < coherence < 1), with the smaller uncertainty corresponding to a greater degree of coherence.

Hope this helps.
 
Yes, but what is the difference between spatial and temporal coherence?
 
For spatial coherence, you consider two points in space, for temporal coherence, two distinct instants.
 
Spatial coherence is coherence across the beam; temporal coherence is coherence along the beam.

The nomenclature comes from thinking about shining a laser onto a screen. Measure the phase of the wave at one point on the screen. If you've got a spatially coherent source, you can deduce the phase elsewhere in the patch (approximately, within a circle whose radius is the coherence length). On the other hand, if you've got a temporally coherent source, you can calculate the phase at the same point some time in the future (approximately, the time limit for this is the coherence time).

Does that clear up your confusion?
 

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