Multiplexed Optical High-coherence Interferometry

Depth Profilometry involves the measurement of the depth profile of objects, and has significant potential for various industrial applications that benefit from non-destructive sub-surface profiling such as defect detection, corrosion assessment, and dental assessment to name a few. We have devised and introduced a new sensing modality for depth profilometry using a Multiplexed Optical High-coherence Interferometry (MOHI) instrument. The MOHI instrument utilizes the spatial coherence of a laser and the interferometric properties of light to probe the reflectivity as a function of depth of a sample. The axial and lateral resolutions, as well as imaging depth, are decoupled in the MOHI instrument. The MOHI instrument is capable of multiplexing interferometric measurements into several hundred one-dimensional interferograms at a location on the sample and is built with axial and lateral resolutions of 40 μm at a maximum imaging depth of 700 μm. 

Related people


Alexander Wong


Farnoud Kazemzadeh

Related research areas

Biomedical Imaging

Scientific Imaging