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Applications

Our products are designed to solve inspection requirements in the field of semiconductors, microelectronics, optics, and surface finishing. Covering the large markets of advanced manufacturing and consumer electronics.

Case studies

5 December, 2019
Dr. Alaitz Zabala, Dr Wilson Tato, Dr. Andrea Aginagalde and Dr. Iñigo Llavori
The aim of this research was to investigate the impact of the insertion procedure on the surface topography of dental implants. To achieve this, it is necessary to evaluate if the surgical procedure degrades the enhanced surface roughness by measuring and comparing the surface topography both before and after insertion exactly at the same locations.
5 December, 2019
Lena Bassel, Alain Queffelec, Maud Mulliez, Bruno Bousquet, Julian Guezenoc, Rémy Chapoulie and Clément Melkebeke
The purpose of this study is to characterize the ablation craters associated to Laser-Induced Breakdown Spectroscopy (LIBS) measurements on a fresco sample and to compare the craters on a 2-cent euro coin associated with a portable instrument (EasyLIBS) and a laboratory instrument
4 December, 2019
Daniel Arnaldo, Etienne Pelletier and Dimitris Karnakis
In this study, we demonstrate a novel laser surface texturing method based on a cost-effective sub-nanosecond (ns) near-infrared (NIR) fiber laser source. This laser-based method shows friction reduction and increased wear resistance, which in turn results in greater component efficiency and longer service life (e.g., pistons).
4 December, 2019
Juan José Ibáñez and Silvia Valenzuela
We are using Confocal microscopy for knowing how, when, and where cereals were domesticated in the Near East 11,000 years ago, and how herbivores were managed during Late Prehistory and Early historical times.
3 December, 2019
Karine de Freitas
The 3D optical profilometer S neox allowed machining specialists to identify the tool responsible for the defect and to follow its wear during serial production, thus controlling the manufacturing process and improving its outcome.
3 December, 2019
Eli Kapon and Dr. Benjamin Dwir
We study the optical properties of QDs that are embedded in PhC cavities, leading to enhanced emission (the Purcell effect), or in WGs, producing photon multiplexing devices.

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