Characteristics of Coherent Sources
Coherent Sources have several features that allow them to be distinguished from incoherent sources, especially if the characteristics of emitting waves with regular phase relationships are considered. Here are some key characteristics of coherent sources:
- Waves appear with a stable and constant phase relationship in time or space, so the patterns of interference that they form will be predictable.
- They are often described as monochromatic as they radiate light of one color or a very narrow range of colors resulting in sharp colours or spectral purity.
- The phase of emitted waves are highly aligned that results in highly directional beams, enabling focused and controlled propagation for different uses.
- Coherent Source ensures temporal stability, meaning they present constant phase relationships over time is imperative for methods such as interferometry and the ones involving time domain measurements.
- Coherent Source maintain uniformity in space by maintaining a stable phase relation between spatial locations that influence imaging quality, holography and spatially resolving features.
- Coherent Sources are able to produce highly focused beams, especially in lasers because of the coherence and synchrony at which photons are discharged.
- They exhibit very narrow linewidths in their emission spectra and this high degree of frequency stability as well as purity is vital to precision measurements and spectral applications.
- Coherent Source possess a large coherence length, meaning interference effects can be observed over significant distances or path differences which makes interferometric techniques and extended coherence applications easier.
Coherent Source
Coherent Source is the source of waves that produce waves with the same frequency, same wavelength, and constant phase or constant phase difference. Coherent Sources are important in wave optics as they provide conditions for interference of waves to produce highly focussed and directional beam of light.
In this article, we will learn about coherent source, its types, characteristics, how to produce coherent source, its application and difference between coherent and incoherent source in detail.