Waveplate Principles
Download Principles Retarders are used in applications where control or
Key Features
Retarder Material: Birefringent Polymer
Substrate Material: N-BK7
Retardance Accuracy: ≤ λ/350
Transmitted Wavefront Distortion: ≤ λ/5
Surface Quality (scratch-dig): 40 – 20
Beam Deviation: ≤ 1 arc-min
Reflectance (per surface): ≤ 0.5 % at normal incidence
Laser Damage Threshold:
500 W/cm², CW
600 mJ/cm², 20 ns, visible
4 J/cm², 20 ns, 1064 nm
Operating Temperature Range: – 20˚C to 50˚C
Item # | Mount | Size | Wavelength | Retardance | Clear Aperture | Thickness | Lead Time | Price | Add to cart |
---|---|---|---|---|---|---|---|---|---|
NQM-050-1064 | Mounted | 0.500 in. (12.70 mm) | 1064 | λ/4 | 0.400 in. (10.1 mm) | 0.250 in. (6.35 mm) | 1 - 2 Days | $512.00 | |
NQM-050-1550 | Mounted | 0.500 in. (12.70 mm) | 1550 | λ/4 | 0.400 in. (10.1 mm) | 0.250 in. (6.35 mm) | 1 - 2 Days | $512.00 | |
NQM-050-λ | Mounted | 0.500 in. (12.70 mm) | Specify λ 400-1800 in Checkout | λ/4 | 0.400 in. (10.1 mm) | 0.250 in. (6.35 mm) | 1 - 2 Days | $512.00 | |
NCM-050-λ | Mounted | 0.500 in. (12.70 mm) | Specify λ 400-1800 in Checkout | Specify in Checkout | 0.400 in. (10.1 mm) | 0.250 in. (6.35 mm) | 1 - 2 Days | $512.00 | |
NH-100-0532 | Unmounted | 1.000 in. (25.40 mm) | 532 | λ/2 | 0.800 in. (20.3 mm) | 0.260 in. (6.60 mm) | 1 - 2 Days | $578.00 | |
NH-100-0670 | Unmounted | 1.000 in. (25.40 mm) | 670 | λ/2 | 0.800 in. (20.3 mm) | 0.260 in. (6.60 mm) | 1 - 2 Days | $578.00 | |
NH-100-0780 | Unmounted | 1.000 in. (25.40 mm) | 780 | λ/2 | 0.800 in. (20.3 mm) | 0.260 in. (6.60 mm) | 1 - 2 Days | $578.00 | |
NH-100-0850 | Unmounted | 1.000 in. (25.40 mm) | 850 | λ/2 | 0.800 in. (20.3 mm) | 0.260 in. (6.60 mm) | 1 - 2 Days | $578.00 | |
NH-100-1064 | Unmounted | 1.000 in. (25.40 mm) | 1064 | λ/2 | 0.800 in. (20.3 mm) | 0.260 in. (6.60 mm) | 1 - 2 Days | $578.00 | |
NH-100-1550 | Unmounted | 1.000 in. (25.40 mm) | 1550 | λ/2 | 0.800 in. (20.3 mm) | 0.260 in. (6.60 mm) | 1 - 2 Days | $578.00 |
Precision Retarders are supplied with a broadband antireflection coating. Optical transmittance of a Precision Retarder is typically greater than 97%. The retardance δ at a wavelength λ that is different from the center wavelength λc is given by:
δ ≈ δc(λc /λ)
where δc is the retardance at λc…
This relationship is very important when using sources which vary in wavelength from their nominal value. The 2 graphs show the retardance behavior as a function of relative wavelength for a quarter- and half-wave retarder, respectively. The Mueller calculus can be used to calculate the transmitted polarization state based upon the retardance differences from the ideal case.
Since polymer retarders are true zero-order devices, they offer the significant advantage of improved angular performance. You can expect less than 1% retardance change over ± 10° incidence angle.
SPECIFICATIONS | |
Retarder Material | Birefringent Polymer |
Substrate Material | N-BK7 |
Standard Wavelengths | 532, 632.8, 670, 780, 850, 1064, and 1550 nm |
Custom Wavelengths | 400 – 1800 nm (please specify) |
Standard Retardances | λ/2 and λ/4 |
Retardance Accuracy | ≤ λ/350 |
Retardance Change (at 30˚tilt) | ≤ λ/32 (Half-Wave) and ≤ λ/59 (Quarter-Wave) |
Transmitted Wavefront Distortion | ≤ λ/5 |
Surface Quality (scratch-dig) | 40 – 20 |
Beam Deviation | ≤ 1 arc-min |
Reflectance (per surface) | ≤ 0.5 % at normal incidence |
Threshold | 500 W/cm², CW |
Operating Temperature Range | 20 ˚C to 50 ˚C |
ORDERING INFORMATION | |||
Mounted | |||
Clear Aperture | Dimensions | Thickness | Part Number |
Half-Wave | |||
0.40 | Ø 1.00 | 0.25 | NHM – 050 – λ |
0.70 | Ø 1.00 | 0.35 | NHM – 100 – λ |
1.20 | Ø 2.00 | 0.50 | NHM – 200 – λ |
Quarter-Wave | |||
0.40 | Ø 1.00 | 0.25 | NQM – 050 – λ |
0.70 | Ø 1.00 | 0.35 | NQM – 100 – λ |
1.20 | Ø 2.00 | 0.50 | NQM – 200 – λ |
Unmounted | |||
Clear | Dimensions | Thickness | Part Number |
Half-Wave | |||
0.40 | Ø 0.50 | 0.13 | NH – 050 – λ |
0.80 | Ø 1.00 | 0.26 | NH – 100 – λ |
1.60 | Ø 2.00 | 0.51 | NH – 200 – λ |
Quarter-Wave | |||
0.40 | Ø 0.50 | 0.13 | NQ – 050 – λ |
0.80 | Ø 1.00 | 0.26 | NQ – 100 – λ |
1.60 | Ø 2.00 | 0.51 | NQ – 200 – λ |
Please specify your center wavelength λ in nanometers when ordering.
Custom sizes and shapes with improved transmitted wavefront distortion and/or beam deviation are available.
Contact us below for a custom quote.
Download Principles Retarders are used in applications where control or
Meadowlark Optics Basic Polarization Techniques and Devices © 2005 Meadowlark