This work introduces a modified low-coherence interferometry approach for nanometer surface-profilometry. The key component of the interferometer is an element with known dispersion which defines the measurement range as well as the resolution. This dispersive element delivers a controlled phase variation which can be detected in the spectral domain and used to reconstruct height differences on a sample. In the chosen setup, both axial resolution and measurement range are tunable by the choice of the dispersive element. The basic working principle was demonstrated by a laboratory setup equipped with a supercontinuum light source (Δλ = 400 ̶ 1700 nm). Initial experiments were carried out to characterize steps of 101 nm on a silicon height ...
This thesis deals with low-coherence interferometry, laser interferometry and its combination intend...
The demand for accuracy and precision at the micro-nano level is constantly increasing in the manufa...
Several optical measurement principles have proven their potential for high-resolution surface measu...
This work introduces a modified low-coherence interferometry approach for nanometer surface-prolomet...
Within this work a scan-free, low-coherence interferometry approach for surface profilometry with nm...
Within this work a scan-free, low-coherence interferometry approach for surface profilometry with nm...
Manufacturing of precise structures in MEMS, semiconductors, optics and other fields requires high s...
Within this work an alternative approach to precision surface profilometry based on a low-coherence ...
Modern manufacturing processes require better quality control of the manufactured products at a fast...
We present an optical interference system nanoprofiler MNP-1 designed for high-precision noncontact ...
A new optical interferometery technique is to measure surfaces at the micro and nano-scales based on...
This thesis documents the development of a novel chip interferometry system using advanced microtec...
Improved online techniques for surface profile measurement can be beneficial in high/ultra-precision...
Countless industrial applications over the past decades have indicated the increased need to relate ...
This project aims to create a novel system based on interferometry and wavelength spatial scanning ...
This thesis deals with low-coherence interferometry, laser interferometry and its combination intend...
The demand for accuracy and precision at the micro-nano level is constantly increasing in the manufa...
Several optical measurement principles have proven their potential for high-resolution surface measu...
This work introduces a modified low-coherence interferometry approach for nanometer surface-prolomet...
Within this work a scan-free, low-coherence interferometry approach for surface profilometry with nm...
Within this work a scan-free, low-coherence interferometry approach for surface profilometry with nm...
Manufacturing of precise structures in MEMS, semiconductors, optics and other fields requires high s...
Within this work an alternative approach to precision surface profilometry based on a low-coherence ...
Modern manufacturing processes require better quality control of the manufactured products at a fast...
We present an optical interference system nanoprofiler MNP-1 designed for high-precision noncontact ...
A new optical interferometery technique is to measure surfaces at the micro and nano-scales based on...
This thesis documents the development of a novel chip interferometry system using advanced microtec...
Improved online techniques for surface profile measurement can be beneficial in high/ultra-precision...
Countless industrial applications over the past decades have indicated the increased need to relate ...
This project aims to create a novel system based on interferometry and wavelength spatial scanning ...
This thesis deals with low-coherence interferometry, laser interferometry and its combination intend...
The demand for accuracy and precision at the micro-nano level is constantly increasing in the manufa...
Several optical measurement principles have proven their potential for high-resolution surface measu...