CRYLINK quartz true zero order half wave plate is made of a single quartz crystal. Its thickness is in the order of micron, and its mechanical strength is low, but it allows a larger incidence angle. When a beam of linearly polarized light is perpendicularly incident on a wave plate made of uniaxial crystal, it is decomposed into o-ray and e-ray propagating along the original direction but perpendicular to each other, and the corresponding refractive index is no ,ne .
Due to the different velocities of the two kinds of light in the crystal, the phase delay is δ=(2π/λ)|no -ne |*d after passing through the wave plate with thickness d. Among them, |no -ne |*d is the optical path difference, the optical path difference generated by the half wave plate is (2m+1)λ/2, the phase delay is δ=(2m+1)*π, m is a non-negative integer, and m of the half wave plate of the true zero order is 0. CRYLINK quartz true zero order half wave plate is often used to rotate the polarization direction of linearly polarized light. Compared with quartz multi-stage wave plate, quartz true zero order wave plate is insensitive to temperature and incident angle, which is suitable for high-power scenes.
|Design wavelength||266 nm-1550 nm|
|Diameter of mechanical shell||25.4 mm|
|Thickness of mechanical shell||4.79 mm|
|AR Coating||R<0.25%a@ Design wavelength (6 ° incident angle, single side)|
|Surface parallelism||<3 arcsec|
|Diameter tolerance of mechanical enclosure||+0.0/-0.1 mm|
|Clear Aperture||Ø20.0 mm|
- It is insensitive to temperature and incident angle
- Suitable for high power scenarios
- It is equipped with mechanical shell and can’t be removed
- Provide a variety of customized services