We will present the basic properties of photorefractive crystals and show how they can be used efficiently in holographic interferometry experiments. We then will present some holographic systems and their numerous applications. With continuous illumination, we will show classical non destructive testing (defect detection), displacement metrology, vibration mode shape visualization, as well as a study for the use of photorefractive crystals in microgravity monitoring of fluid (FSL experiment aboard the International Space Station). With pulsed illumination we will present the possibilities of the photorefractive crystals in vibration measurement (and will introduce the ongoing EC-funded PHIFE research project). The purpose of the paper is to unmystify photorefractive crystals and to show that they could be a good alternative to traditional speckle-based techniques for highly demanding applications. For that we will highlight the highest resolution achieved as well as the high temporal dynamics of the holographic recording.
Dynamic holographic interferometry with photorefractive crystals: review of applications and advanced techniques
Dynamische holographische Interferometrie mit photorefraktiven Kristallen. Übersicht von Anwendungen und moderner Technik
2003
6 Seiten, 16 Quellen
Aufsatz (Konferenz)
Englisch
British Library Conference Proceedings | 2003
|Phenol adsorption using holographic interferometry in photorefractive crystals [4430-70]
British Library Conference Proceedings | 2001
|British Library Conference Proceedings | 2005
|