Title :
Electronic speckle pattern interferometry with violet semiconductor lasers
Author :
Petrov, Valentin
Author_Institution :
FIBA, Ulm, Germany
Abstract :
Summary form only given. Semiconductor laser sources were applied for holographic data recording, storage and display. Holographic interferometers based on semiconductor lasers enable rapid display of acquired data in quasi-real (within several seconds) or real time in situ if advanced holographic techniques on silver halide media are applied. In the last case no liquid gates in the recording setup and no repositioning of the interferogram after exposure are required. Semiconductor lasers were also used in electronic speckle pattern interferometry (ESPI). For example a very compact ESPI device with semiconductor laser emitting in the red part of visible spectrum and a special HOE was successfully used for out-of-plane deformation measurements. This HOE when properly illuminated generates a speckled reference wave. A very similar ESPI interferometer can utilize instead of the HOE a microstructured refractive optical element (MROE) also located in front of CCD camera. The MROE shifts object and reference waves horizontally and guides them in-line to the CCD sensor. A novel semiconductor laser emitting in the violet part of visible spectrum was used for the first time in the ESPI setup. An engineering sample (5 mW, 397 nm) of semiconductor violet laser from Nichia Corporation was successfully tested in a compact ESPI device with the MROE.
Keywords :
electronic speckle pattern interferometry; holographic interferometry; holographic optical elements; light sources; micro-optics; optical design techniques; optical elements; real-time systems; semiconductor lasers; 397 nm; 5 mW; Ag halide media; CCD camera; CCD sensors; ESPI interferometer; Nichia Corporation; advanced holographic techniques; compact ESPI device; electronic speckle pattern interferometry; engineering sample; holographic data recording; holographic data storage; holographic display; holographic interferometers; microstructured refractive optical element; object waves; out-of-plane deformation measurements; quasi-real time; rapid display; real time; reference waves; semiconductor laser; semiconductor laser source; semiconductor lasers; semiconductor violet laser; special holographic optical element; speckled reference wave; violet region; violet semiconductor lasers; visible spectrum; Adaptive optics; Charge coupled devices; Displays; Holography; Interferometers; Interferometry; Optical refraction; Semiconductor lasers; Silver; Speckle;
Conference_Titel :
Lasers and Electro-Optics Europe, 2000. Conference Digest. 2000 Conference on
Conference_Location :
Nice
Print_ISBN :
0-7803-6319-1
DOI :
10.1109/CLEOE.2000.910138
