Reiner Klattenhoff scite author profile

Reiner Klattenhoff

5Publications

43Citation Statements Received

49Citation Statements Given

How they've been cited

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Affiliations

Bremen Institute for Applied Beam Technology

Publications

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Miniaturized digital holography sensor for distal three-dimensional endoscopy

et al. 2003

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A miniaturized sensor head for endoscopic measurements based on digital holography is described. The system was developed to measure the shape and the three-dimensional deformation of objects located at places to which there is no access by common measurement systems. A miniaturized optical sensor, including a complete digital holographic interferometer with a CCD camera, is placed at the end of a flexible endoscope. The diameter of the head is smaller than 10 mm. The system enables interferometric measurements to be made at speeds of as many as five reconstructions per second, and it can be used outside the laboratory under normal environmental conditions. Shape measurements are performed with two wavelengths for contouring, and the deformation is measured by digital holographic interferometry. To obtain full three-dimensional data in displacement measurements we illuminate the object sequentially from three different illumination directions. To increase the lateral resolution we use temporal phase shifting.

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Spatial multiplexing digital holography for speckle noise reduction in single-shot holographic two-wavelength contouring

et al. 2017

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Novel trends in optical non-destructive testing methods

Huke

Klattenhoff

Kopylow

et al. 2013

J. Eur. Opt. Soc.-Rapid Publ.

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Non-destructive testing (NDT) describes a wide range of methods for measuring and comparing physical quantities against a nominal condition. In this paper we describe and compare different optical NdT (ONDT)-methods with respect to their characteristics and capability for different measurement tasks. ONDT may be specified in two categories, passive and active. The NDT principles of the first category just use a measurement method like view inspection, elipsometry or reflectometry to detect defects which are easily accessible. The principles of the second category use an excitation force, such as heat or mechanical vibration introduced by transducers to detect hidden defects. This category can be specified into two subcategories. The first subcategory "time-/depth-resolved" includes measurement methods delivering detailed information of the geometric features of a hidden defect. Therefore the excitation of the material and the detection of the reaction have to provide a time step which enables depth-solved measurements. Phase-resolved thermography and laser ultrasound are examples for this category. The second subcategory "Integrating" includes measurement technique coupled with an excitation that enables detection of defects but not evaluation of their geometric features. Examples for these measurement techniques are shearography, reflectometry, vibrometry and thermography coupled with excitation method like simple heating or loading with a constant force. We demonstrate experimental results obtained using methods developed in our institute and highlight directions of further development.

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Speckle noise reduction in single-shot holographic two-wavelength contouring

Agour

Klattenhoff

Falldorf

et al. 2017

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Optimized interferometer for 3D digital holographic endoscopy

Kolenović

Klattenhoff

Koepp³

2003

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