SPIE EUV Lithography 2023
New technique for measuring free-form wafer shape for feed-forward overlay corrections will be highlighted at SPIE EUV Lithography 2023 San Francisco September 4, 2023: Wooptix, the company...
Clean Rooms
Wooptix expands its Clean Rooms and prepares 400 m² more to work in Semiconductor Metrology. The clean rooms, which are located in the Nanotec building, in La Laguna (Tenerife), are...
Wooptix closes €10 million Series B financing round
Wooptix closes €10 million Series B financing round The round is participated by: Bullnet Capital, CDTI (Centre for the Development of Technology and Innovation), Danobatgroup , European Innovation...
Wooptix participates in the Munich SPIE Optical Metrology in June 2023
Jan Olaf Gaudestad, Wooptix VP of Business Development will present a poster session from 12.30 to 13.30 the Wednesday 28th, with the last research advances in Semiconductors Metrology. Madrid June...
38th Mask and Lithography Conference: Wooptix will present the latest Research Work
The conference named “New optical metrology technique for shape measurements of blank and patterned silicon wafers” will take place the 21 th Wednesday of June. Wooptix...
Deep learning Stereo matching Techniques
MIGUEL JIMÉNEZ GOMIS
In recent decades thanks to advances in computing, it has been possible to apply Deep Learning technologies to fields in which they were not previously viable.
Drawbacks of widespread stereo matching techniques
DANIEL PAZ
Obtaining a depth map is not a easy task, as for the past 30 years a wide array of methods has been developed, with varied results. In this blog, those methods will be discussed.
The WFPI technique applied in ophthalmology
CAROLINA BELDA
The study of the ocular aberrations is an important field concerned in ophthalmology due to the great amount of visual quality information that we can obtain from it.
The optics of the human eye at 8.6 µm resolution
T·EYEDE TEAM
In this work, we characterize the in vivo ocular optics of the human eye with a lateral resolution of 8.6 microns, which implies roughly 1 million measurement points for a pupil diameter of 9 mm.
Inverse multiscale discrete radon transform by filtered backprojection
WOOPTIX TEAM
The Radon transform is a valuable tool in inverse problems such as the ones present in electromagnetic imaging.