What Is Coherence In Physics
Two waves are said to be coherent if they have the same frequency (or wavelength) and are in phase ( or have a constant phase difference between them). The light produced by lasers is coherent light. Light from light bulbs or the sun is incoherent light. Coherence is the coordinated motion of several waves maintaining a fixed and predictable phase difference. Coherence is a concept that establishes the limits Within which a real light source can be considered ideal. [t is a measure of the correlation that exists between the phases of the wave measured at different points.
Another necessary condition (for waves to be coherent) is therefore that both waves travel at the same speed. The concept of coherence can be well understood from Fig. (1) and (2). Fig. ( 1) shows a typical beam of light waves from an ordinary source traveling through space.
Temporal coherence is alive of the correlation between the phases of a light-weight wave at totally different points on the direction of propagation. It is the correlation between the waves at one place at different times along the path of a beam is called “temporal coherence”. It tells us how monochromatic a source is. It is related to the emitted line width. Let us consider a single point on the wavefront. There will be a phase difference between time, t = 0 and t = &t of the wave. If this phase difference remains the same for any value of St, then the wave has perfect temporal coherence. But if this is. only for a specific value of 6t, then the wave has partial temporal coherence. In other words if the phase difference measured at a single point on a wave in the space at the beginning and end.of a fixed time interval (A12), does not change with time (13) or the phase difference measured at a time between any two fixed points x1and x2, spaced any distance apart along any ray, does not change with respect to distance, then the waves are said to possess temporal coherence.