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Project description. The genicam module is the official Python binding of GenICam that is developed and maintained by the GenICam committee.

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$\small{n_D} $, $\small{n_F} $, and $\small{n_C} $ are the substrate’s refractive indices at the wavelengths of the Fraunhofer D- $ \small{\left( 589.3 \text{nm} \right)} $, F- $ \small{\left( 486.1 \text{nm} \right)} $, and C- $ \small{\left( 656.3 \text{nm} \right)} $ spectral lines. The Abbe number of a material may also be described at any wavelength using the derivative of refractive index with respect to wavelength:

Group velocity is similar to spectral dispersion as they both correspond to the first derivative of refractive index with respect to wavelength or frequency. Likewise, $ \small{\text{GVD}} $ is similar to partial dispersion in that they are both second derivatives with respect to wavelength or frequency. Minimizing $ \small{\text{GVD}} $ in an optical design is similar to designing to minimize chromatic focal shift, except the designer will focus on group velocity and $ \small{\text{GVD}} $ rather than the Abbe number and partial dispersion.

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Polarization mode dispersion is the dependence of light’s propagation characteristics in a medium on polarization state, which can be relevant in high data rate single-mode fiber systems. All three types of dispersion may cause temporal broadening or compression of ultrashort pulses in free space or optical fibers, potentially causing separate pulses blend together and become unrecognizable (Figure 3).

A further discussion of $ \small{\text{GVD}} $ and its importance for ultrafast laser optics can be found in our Ultrafast Dispersion application note.

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Dispersion is the dependence of light’s phase velocity or phase delay as it transmits through an optical medium on another parameter, such as optical frequency, or wavelength. Several different types of dispersion can occur inside an optic’s substrate: chromatic (Figure 1), intermodal, and polarization mode dispersion.1

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The refractive index of a material is often described using the Selmeier formula and the material constants $\small{B_1}$, $\small{B_2}$, $\small{B_3}$, $\small{C_1}$, $\small{C_2}$, and $\small{C_3}$:

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In laser applications, the primary concern is how dispersion will affect the properties of a laser pulse traveling through the medium, which is described by group velocity - the variation of the phase velocity of light in a medium relative to its wavenumber:

The refractive index is the ratio between the speed of light in vacuum and a light wave’s phase velocity while traveling through a medium, such as air or glass. In pulsed laser applications, light is commonly described using frequency because time is generally more critical and the frequency of light is a fixed value, while its wavelength is dependent on the refractive index it is traveling within. Wavelength $ \small{\left( \lambda \right)} $ is related to angular frequency $ \small{\left( \omega \right)} $, refractive index $ \small{\left( n \right)} $, and the speed of light $ \small{\left( c \right)} $ by:

1 Paschotta, Rüdiger. Encyclopedia of Laser Physics and Technology, RP Photonics, October 2017, www.rp-photonics.com/encyclopedia.html.

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The wavenumber $ \small{\left( k \right)} $ is $ \tfrac{2 \pi}{\lambda} $ - this concept is sometimes also referred to a spectral phase. As multiple wavelengths of light transmit through a material, the longer wavelength (lower frequency) typically travels faster than shorter wavelengths (higher frequencies) because the group velocity is wavelength-dependent.2 This results in a spectral spreading of the wavefront phase similar to the way light transmitting through a prism is dispersed into its component colors. Group velocity is defined as the first derivative of the phase velocity with respect to frequency, and the group velocity dispersion $ \small{\text{GVD}} $ is similarly defined as the derivative of the inverse group velocity with respect to frequency:

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Intermodal dispersion is a dependence of the group velocity of light in a waveguide, such as a multimode fiber, on the optical frequency and the propagation mode.2 In multimode optical fiber communication systems, this severely limits the achievable data transmission rate, or bit rate. Intermodal dispersion could be prevented by using single-mode fibers or multimode fibers with a parabolic refractive index profile.

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Chromatic dispersion is a dependence of light’s phase velocity $\small{\nu _{p}}$ in a medium on its wavelength, resulting mostly from the interaction of light with electrons of the medium. Chromatic dispersion is described by the Abbe number (Figure 2), which corresponds to the reciprocal of the first partial derivative of refractive index with respect to $ \small{\lambda} $, and partial dispersion, which corresponds to the second derivative of refractive index with respect to wavelength.