Optically Contacted zero order waveplate is constructed by two quartz plates with their fast axis crossed, the two plates are constructed by optically contacted method, the optical path is epoxy free. The difference in thickness between the two plates determines the retardation. Zero order waveplates offer a substantially lower dependence on temperature and wavelength change than multi order waveplates.
Optically Contacted
Thickness 1.5~2mm
Double Retardation Plates
Broad Spectral Bandwidth
Wide Temperature bandwidth
Hight Damage Threshold
Specifications:
Material: | Quartz |
Diameter Tolerance: | +0.0, -0.1mm |
Wavefront Distortion : | λ/8 @ 632.8nm |
Retardation Tolerance: | λ/300 |
Parallelism: | <1 arc second |
Surface Quality: | 20/10 |
Clear Aperture: | >90% |
Coating: | S1&S2: R<0.2% @ wavelength |
266nm, 355nm,532nm, 632.8nm, 780nm,808nm, 850nm, 980nm,1064nm, 1310nm, 1480nm, 1550nm
Half Waveplates P/N# | Quarter Waveplates P/N# | Diameter(mm) |
INF-WPO210 | INF-WPO410 | 10.0 |
INF-WPO212 | INF-WPO412 | 12.7 |
INF-WPO215 | INF-WPO415 | 15.0 |
INF-WPO220 | INF-WPO420 | 20.0 |
INF-WPO225 | INF-WPO425 | 25.4 |
INF-WPO230 | INF-WPO430 | 30.0 |
