Different classes of optical elements combined in a monolithically integrated microoptical system are fabricated using micromilling. On the resulting surfaces the average roughness height was found to be Ra < 40 nm with an overall shape accuracy < 1.6 μm (based on the determination of the radii of curvature)
The ultimate objective of this thesis is to improve our understanding of light reflection on micro-c...
There is a strongly growing market in the field of optical and electro-optical modules, which genera...
Due to the geometry complexity and high precision requirement, there still possess a lot of challeng...
Different classes of optical elements combined in a monolithically integrated microoptical system ar...
Production of micro-scale components is an important emergent field. One underdeveloped area is the ...
Aspherical and freeform optics receive uprising attention, due to their advantages in terms of aberr...
We report what is to our knowledge the first approach to diamond turn microoptical lens array on a s...
This study looks at the application of physical micromachining techniques to integrated optics. Thes...
The project UltraOptik dealt with the realisation of a compact turning machine with a highly dynamic...
Microtechnology, regarded as one of the interdisciplinary key technologies of the 21st century, enco...
High-accuracy three-dimensional miniature components and microstructures are increasingly in demand ...
Micromilling is one of the most suitable technologies for the direct manufacturing of freeform micro...
We present Flame Hydrolysis Deposition (FHD) silica micromilled with nanoscale surface roughness, su...
By the developments in ultra precision micro machining appreciable progress could be achieved in the...
To achieve a surface roughness in nanometer range together with high shape and dimensional accuracy ...
The ultimate objective of this thesis is to improve our understanding of light reflection on micro-c...
There is a strongly growing market in the field of optical and electro-optical modules, which genera...
Due to the geometry complexity and high precision requirement, there still possess a lot of challeng...
Different classes of optical elements combined in a monolithically integrated microoptical system ar...
Production of micro-scale components is an important emergent field. One underdeveloped area is the ...
Aspherical and freeform optics receive uprising attention, due to their advantages in terms of aberr...
We report what is to our knowledge the first approach to diamond turn microoptical lens array on a s...
This study looks at the application of physical micromachining techniques to integrated optics. Thes...
The project UltraOptik dealt with the realisation of a compact turning machine with a highly dynamic...
Microtechnology, regarded as one of the interdisciplinary key technologies of the 21st century, enco...
High-accuracy three-dimensional miniature components and microstructures are increasingly in demand ...
Micromilling is one of the most suitable technologies for the direct manufacturing of freeform micro...
We present Flame Hydrolysis Deposition (FHD) silica micromilled with nanoscale surface roughness, su...
By the developments in ultra precision micro machining appreciable progress could be achieved in the...
To achieve a surface roughness in nanometer range together with high shape and dimensional accuracy ...
The ultimate objective of this thesis is to improve our understanding of light reflection on micro-c...
There is a strongly growing market in the field of optical and electro-optical modules, which genera...
Due to the geometry complexity and high precision requirement, there still possess a lot of challeng...