Small Deformable Mirror
Description
Dyoptyka has developed an innovative solution, using a phase-randomizing deformable mirror, for the reduction of speckle and other unwanted interference effects that can arise when using lasers and partially coherent sources of illumination such as superluminescent diodes. It offers a unique combination of advantages over alternatives such as moving diffusers and shaking fibers with respect to: speckle reduction performance, speed, optical efficiency,electrical efficiency, size, and manufacturability.
Small Deformable Mirror
Specifications |
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|---|---|
| Number Of Actuators: | -- |
| Wavefront Tip-Tilt Stroke (PtV): | -- um |
| Actuator Pitch: | -- um |
| Pupil Size (Clear Aperture): | -- mm |
| Surface Quality (RMS): | -- nm |
| Mechanical Response (10%-90%): | -- us |
| Reflective Coating Material: | Gold, Aluminum, Protected Silver |
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How to order?
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Ships from:
Ireland
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Sold by:
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External Vendor
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Frequently Asked Questions
The small deformable mirror is designed to reduce speckle and unwanted interference effects when using lasers and partially coherent sources of illumination.
The deformable mirror achieves speckle reduction through phase randomization, which generates sequences of uncorrelated effects over the integration period of the sensor.
The deformable mirror offers advantages such as better speckle reduction performance, higher speed, improved optical efficiency, enhanced electrical efficiency, smaller size, and easier manufacturability compared to moving diffusers and shaking fibers.
Various applications can benefit from using the small deformable mirror, including semiconductor wafer inspection microscopy, thermal infrared sensor calibration systems, holographic displays, interferometry, and microscopy.
Yes, the small deformable mirror can be used with different types of lasers, including visible and infrared lasers, to reduce speckle and unwanted interference effects.