Duration of wave packet (photon) vs coherent time

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Coherence time refers to the duration a light pulse remains coherent, as different frequency components can drift out of phase over time. The duration of a wave packet is defined as the time difference between its leading and trailing edges. Coherence time is not necessarily contained within the wave packet's duration; instead, it is influenced by the pulse's bandwidth. It indicates how accurately future values of the light field can be predicted and is often measured using a Mach-Zehnder interferometer. Generally, coherence time is approximately twice the cavity length in such setups.
coke
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hi, can anyone kindly explain to me what's 'coherent time' and 'duration of wave packet (photon)' in white light interference ?
 
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Coherence time is length of time a pulse of light will remain coherent for. Light pulses (or wavepackets if you like) become incoherent with time because the different frequency components drift out of phase with one another.

The duration of the wave packet is just the time difference between the leading and trailing edge of the pulse.

Claude.
 
then does it mean that coherent time period is within the duration of a wave packet ?
 
then does it mean that coherent time is within the duration of a wave packet ?
 
No- the coherence time is related to the bandwidth of a pulse, and is only related to the pulse time in diffraction-limited cases.

The coherence time means how well you can predict future values of the field (or intensity), and is typically measured by a Mach-Zender interfeometer.

As a rule of thumb, the coherence time (or equivalently, the maximum path difference in a M-Z interferometer) is given by twice the cavity length.
 
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