Novel devices ♦ product news


LayTec delivers its 1000th in- situ monitoring system


Since its foundation in 1999, LayTec has been a supplier to industrial companies and research institutions world-wide.


At the beginning, the company focused on metrology solutions for III-V based compound semiconductors in telecommunication applications. In 2001–2005, after flexible adaptation of the product portfolio to the needs of the III-N market, LayTec‘s EpiTT and EpiCurve TT sensors became a must in GaN based LED production. Hence, in 2008 the number of shipped metrology tools doubled as compared to 2007.


When the current LED boom hit the roof in mid 2009, LayTec managed to upscale its production capacities to the current market demand just within a few months. Since then, several hundreds of metrology systems have been shipped world- wide. Compared to 2009, the number of delivered products increased by more than 300% in 2010. Thanks to the leading metrology performance in industry, LayTec‘s share on the MOCVD market for new in-situ equipment is well above 70%


LayTec‘s production and logistics manager Dr. Elmar Droege commented: “The immense increase of production capacities was possible due to the extraordinary commitment and high qualification of our employees as well as immediate additional investments in the production facilities. Thanks to the high efficiency of our quality control, we managed to reconcile the fast response to the growing demand with the high quality standards expected from our industrial customers.“


In July 2010 LayTec successfully renewed its Quality Management Certificate according to the DIN EN ISO 9001:2008 norm.


Product News


Novel devices Arradiance Ships First Benchtop ALD System to Oregon State University


The firm says its GEMStar Atomic Layer Deposition (ALD) benchtop research system has the flexibility to deposit atomically thin layers of material on “virtually any substrate”. Potential applications include solar, space science, environmental and semiconductor.


Arradiance has shipped its first of multiple orders of the GEMStar Atomic Layer Deposition (ALD) system to the School of Electrical Engineering and Computer Science at Oregon State University.


With its capability to process up to 6” diameter wafers using up to eight precursors, GEMStar has the flexibility to deposit atomically thin layers of material on virtually any substrate and was designed with the most challenging high aspect ratio and through-pore deposition applications in


226 www.compoundsemiconductor.net November/December 2010


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