Free spectral range
Free spectral range (FSR) is the spacing in optical frequency or wavelength between two successive reflected or transmitted optical intensity maxima or minima of an interferometer or diffractive optical element.
The FSR is not always represented by or , but instead is sometimes represented by just the letters FSR. The reason is that these different terms often refer to the bandwidth or linewidth of an emitted source respectively.
In general
The free spectral range (FSR) of a cavity in general is given by:
Where is the roundtrip length of the cavity (which is twice the physical length of the cavity multiplied by its refractive index), is the group index of the media within the cavity and is the speed of light. A simple intuitive interpretation of the FSR is that it is the inverse of the roundtrip time :
In wavelength, the FSR is given by:
where is the vacuum wavelength of light. For a linear cavity, such as the Fabry-Pérot discussed below, , where is the distance travelled by light in one roundtrip around the closed cavity and is the length of the cavity.
Diffraction gratings
The free spectral range of a diffraction grating is the largest wavelength range for a given order that does not overlap the same range in an adjacent order. If the (m+1)th order of and (m)th order of lie at the same angle, then
Fabry–Pérot interferometer
In a Fabry–Pérot interferometer or etalon, the wavelength separation between adjacent transmission peaks is called the free spectral range of the etalon, and is given by:
where λ0 is the central wavelength of the nearest transmission peak, n is the index of refraction of the cavity medium, is the angle of incidence, and l is the thickness of the cavity. More often FSR is quoted in frequency, rather than wavelength units:
The FSR is related to the full-width half-maximum, δλ, of any one transmission band by a quantity known as the finesse:
where is the coefficient of finesse, and R is the reflectivity of the mirrors.
This is commonly approximated (for R > 0.5) by