monochromatic light (original) (raw)

Author: the photonics expert (RP)

Definition: light with a single optical frequency

Category: article belongs to category general optics general optics

Related: optical frequencypolychromatic lightnarrow-linewidth lasersbandwidthlinewidthmonochromatorsMore on the question: Can monochromatic light be unpolarized?

Opposite term: polychromatic light

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Contents

Definition of Monochromatic Light

Monochromatic light is light (optical radiation) where the optical spectrum contains only a single optical frequency. The associated electric field strength at a certain point in space, for example, exhibits a purely sinusoidal oscillation, having a constant instantaneous frequency and a zero bandwidth.

Light sources emitting monochromatic light can themselves be called monochromatic.

The antonym of monochromatic is polychromatic. A typical example of polychromatic light is light created as thermal radiation, e.g. in an incandescent lamp; such light exhibits a broad range of optical frequencies.

Many calculations in optics and photonics are performed for monochromatic light. For example, the evolution of laser beams is usually calculated that way; there is just one given optical wavelength or frequency, not a finite optical bandwidth.

The term monochromatic originally means having only a single color. Different optical wavelengths of visible light are associated with different perceived colors. However, light colors are rarely a criterion for monochromaticity in practice, and non-monochromatic light can also have specific colors. Also, the term is applied to infrared and ultraviolet light as well as to visible light.

Quasi-monochromatic Light

Real light sources can of course never be exactly monochromatic, i.e., have a zero optical bandwidth. However, particularly laser sources are often quasi-monochromatic, i.e., the optical bandwidth is small enough that certain behavior of the light can hardly be distinguished from that of truly monochromatic light. Some examples:

Obviously, the permissible optical bandwidth for quasi-monochromatic light depends very much on the circumstances.

Quasi-monochromatic Light Sources

Lasers are the primary sources of quasi-monochromatic light. In contrast to narrow-band light obtained by bandpass filtering light from a broadband source (see below), lasers can generate quasi-monochromatic light with high optical powers. Some lasers even exhibit extreme degrees of monochromaticity, i.e., an extremely small optical bandwidth. The highest degree of monochromaticity is achieved with carefully stabilized single-frequency lasers (sometimes with a bandwidth well below 1 Hz).

Before the advent of the laser, it was quite difficult to produce monochromatic light. One possibility was to use certain gas discharge lamps and metal vapor lamps (e.g. mercury vapor lamps and sodium vapor lamps), emitting light dominantly in certain narrow spectral lines, and isolating one such line with a suitable monochromator. The achieved optical powers and intensities were quite low.

A monochromator is essentially a kind of optical filter which allows one to isolate light in a narrow spectral interval from other light. Its output will therefore be quasi-monochromatic. However, light at all other wavelengths is then lost.

Frequently Asked Questions

What is monochromatic light?

Monochromatic light is optical radiation that consists of only a single optical frequency. In practice, this is an idealization, as real light sources are always quasi-monochromatic, having a very small but non-zero optical bandwidth.

What does quasi-monochromatic mean?

Quasi-monochromatic light has a very small optical bandwidth, so it behaves nearly identically to perfectly monochromatic light in a given application. The acceptable bandwidth depends on the context, e.g., for interferometers the coherence length must be well above any path length differences.

What is the best source for monochromatic light?

Lasers are the primary sources of quasi-monochromatic light, capable of producing high optical powers with very small bandwidths. The highest degree of monochromaticity is achieved with stabilized single-frequency lasers.

What is the difference between monochromatic and polychromatic light?

Monochromatic light consists of a single optical frequency (or a very narrow band), while polychromatic light contains a broad range of optical frequencies. An example of polychromatic light is the thermal radiation from an incandescent lamp.

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