- Chromatic Sensors
- Displacement Gages
- Ellipsometers
- Interferometers
- Laser Vibrometers
- Optical Frequency Combs
- Optical Surface Profilers
- Polarimeters
- Refractometers
- Strain Gages
- Thickness Measuring Systems
- Metrology Accessories
- Laser Micrometers
- Shearography Systems
- Scatterometers
- Video Micrometers
- Laser Gyroscopes
Holography
Description
This diagram illustrates the modular design of the Electronic Holography optical head mounted on an 18-inch square pallet. It is composed of 3 modules: an interferometer module, a beamsplitter module, and an illumination module, which can be attached to the beamsplitter module to form a single unit. The interferometer and beamsplitter modules are connected by a polarization preserving optical fiber that provides the reference beam for the interferometer. This is greatly superior to a reference beam propagating in free space because it provides stable alignment. The design of the interferometer module eliminates problems found in most competing designs. First, the beamsplitter is approximately 90% reflective and oriented so that the image forming rays never pass through it. That orientation eliminates image aberrations and also eliminates patterns in the reference beam from reflections by the second surface. The primary image-forming lens is a standard TV zoom lens on a standard C-mount. This is followed by a field lens and a high-quality relay lens to bring the image to the TV camera with no vignetting or aberrations. The imaging lens is mounted on a translation stage to facilitate focusing. The beamsplitter module also uses a high reflection beamsplitter to direct the majority of the laser light to the object. The remainder is reflected by two piezo-electrically actuated mirrors to the fiber optic coupler. Two compact rotary shutters are incorporated to switch the illumination and reference beams on and off independently. During the calibration, the interferometry program measures the ratio of the object beam to reference beam at the TV camera. The beam ratio can be adjusted over a wide range by defocusing the reference beam on the end of the optical fiber. The illumination module consists of a pair of lenses, one stationary and one movable along its axis, which can expand or compress the illumination beam over a wide range. An anamorphic prism beam expander is also available to elongate the profile of the beam to provide uniform illumination of oblong-shaped objects. The illumination beam also passes through a tilted etalon that shifts the beam laterally without changing its direction of propagation. When this assembly rotates, the speckles on the object seen by the TV camera change, and this is used to eliminate speckles by averaging. The layout of the K100/HOL optical head is simple and provides easy access to all adjustments. The protective cover is a set of sides that bolts to the pallet capped with a hinged lid so that the user has instant and easy access to any necessary adjustment. An interlock switch is installed to shut off the laser if an unauthorized person opens the lid.
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