The combination of white light interferometry with hyperspectral imaging ("hyperspectral interferometry") is a recently proposed technique for single-shot measurement of 3D surface profiles. We consider for the first time its application to speckled wavefronts from optically rough surfaces. The intensity versus wavenumber signal at each pixel provides unambiguous range information despite the speckle-induced random phase shifts. Experimental results with samples undergoing controlled rigid body translation demonstrate a measurement repeatability of 460 nm for a bandwidth of approximately 30 nm. Potential applications include roughness measurement and coordinate measurement machine probes where rapid data acquisition in noncooperative environments is essential.
[1]
Pablo D. Ruiz,et al.
Hyperspectral interferometry for single-shot absolute measurement of two-dimensional optical path distributions
,
2010
.
[2]
M. Takeda,et al.
Fourier-transform speckle profilometry: three-dimensional shape measurements of diffuse objects with large height steps and/or spatially isolated surfaces.
,
1994,
Applied optics.
[3]
I. Yamaguchi,et al.
Wavelength scanning profilometry for real-time surface shape measurement.
,
1997,
Applied optics.
[4]
G. Häusler,et al.
Three-dimensional sensing of rough surfaces by coherence radar.
,
1992,
Applied optics.