- Retardation Bands: fully customizable between 400-4000nm
- Typical Achromatic Retardation (2TR): 90° ±#° or 180° ±#° for 450-650nm
- Typical Super-Achromatic Retardation (3TR): 90° ±#° or 180° ±#° for 400-800nm or 500-900nm
- Typical Precision Retardation: 180° ±#° for 720-880nm
- Typical Chromatic Retardation: 1.~180° (510-540nm) and ~0° (630-650nm, 445-460nm); or 2.~180° (1-4 µm) and ~0° (500-900nm);
- Patterned/louvered domains: nearly any pattern, with resolution down to <5 µm
- Size: up to 300 x 300mm sq; round or arbitrary cut samples are custom
- Due to their simple fabrication and many degrees of design freedom, MTRs are ideal for:
- Patterned Retardation (louvers or other patterns)
- Wide Achromaticity
- Precision, Low-variation Retardation
- Single Film, Highly Chromatic Retardation
- Wide Viewing Angle Retardation
The self-alignment of the birefringent layers enables MTRs to greatly exceed the precision, repeatability, and design flexibility of traditional stacked wave-plates. We enjoy the challenge of tailoring our technology to new applications. If you have a unique optical challenge that doesn’t exactly fit our typical specifications, we encourage you to contact us to explore what is possible.
Additional Applications for Multi-Twist Retarders
FAQs about Multi-Twist Retarders
Q. Can you actually make an optical element that could act one way in one wavelength band, and act very differently at another wavelength band?
A. Yes. By tuning the different layers of the MTR design we can make a waveplate that has different retardances based on wavelength.
Q. Can your MTRs be patterned so that we can precisely control the retardation with a specific profile?
A. Yes. Our technology can be patterned such that different regions have different orientations. This patterning can be discreet or continuously varying depending on your requirements.
White Papers about Multi-Twist Retarders
- Multi-twist retarders: broadband retardation control using self-aligning reactive liquid crystal layers
- Multi-twist retarders for broadband polarization transformation
- Multiband retardation control using multi-twist retarders
- Wide color gamut multi-twist retarders
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Some Questions to Consider
These are typical questions we like to ask when engaging you as a customer to help best assess and understand your needs and challenges.
- What are the key issues with your current solution?
- Describe the major optical challenges you are facing. Is it low efficiency? Is there a unique polarization? a difficult phase profile to work with? or something else?
- Are there specific technology features (i.e., diffraction, polarization, retardation, wavefront, focus, opto-electronics, other) that you are interested in?
- What are the characteristics of the light source you need to work with (i.e., polarization, bandwidth, collimation, intensity, coherence)?
- What are the desired characteristics of the light at the output of the system?
- Are there any specific tests, experiments, or prototypes that would best validate a solution for your problem?
- What is the timeframe within which you need a demonstrated solution?
- Are there any unique or challenging form factor requirements? Thickness requirements? Large active area requirements?