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The Leibniz Institute for Crystal Growth

On January, 1st 1992, the IKZ turned into based as provider institution on the so-known as Blue List. The institute developed from the technical centre for crystal growth in addition to the centre of medical device engineering of the Academy of Sciences of the German Democratic Republic. Further groups from the Academy of Sciences of GDR were incorporated, namely, the one coping with the increase of II-VI crystals from the primary institute for electron physics and from the important institute for optics and spectroscopy the oxide crystal organization. Initially, the institute had 52 workforce participants. The Leibniz Institute for Chrystal Growth is a studies and carrier institute of countrywide importance and of federal medical hobby. In 2008, the institute was renamed Leibniz Institute for Crystal Growth. The Leibniz Institute for Crystal Growth is a unique research organization in Europe. Since October 2013 Professor Dr. Günther Tränkle is acting director of the Leibniz Institute for Crystal growth. He is also director of the Ferdinand-Braun-Institute, Leibniz-Institute for High Frequency Technology (FBH). Both institutes are part of Research Association Berlin. Prof. Dr. Saskia Fischer, Lothar Ackermann, Hubert Aulich, Prof. Dr. Michael Kneissl, Prof. Dr. Götz Seibold, Dr. Ulrich Steegmüller act as advisory board. There are diverse institutes associated with IKZ like Central Institute of Electron Physics, Centre for Scientific Instrumentation (ZWG), Institute of Optics and Spectroscopy . The Ferdinand Braun Institute, Leibniz Institute for High Frequency Technology (FBH) is learning electronic and optical components, modules and structures based on compound semiconductors. The institute develops excessive-electricity and high-brilliance diode lasers, UV mild-emitting diodes and hybrid laser systems from the seen to the ultraviolet spectral variety. The fields of application range from scientific technology, precision dimension technology and sensor generation to optical satellite communication. In microwave era, the FBH implements surprisingly efficient, multifunctional amplifiers and circuits, including energy-green mobile radio structures and components for increasing car protection. The Leibniz Institute for Crystal Growth performs its research activities in the departments Classical Semiconductors, Dielectrics and Wide Bandgap Materials, Layers and Nanostructures sowie Simulation & Characterization. The research departments are supported by the Science Management unit, which contains public family members, generation transfer in addition to the institutes management. During the closing 10 years, the Leibniz Institute for Crystal Growth (IKZ) has become the principal research centre for crystal growth in Europe. IKZ has also a robust global popularity in research and improvement of crystalline substances and new ingenious technology within the subject of crystal boom. These materials guide the innovation manner inside the location of energy electronics, microelectronics, photovoltaic and different fields of optics. Moreover, the institute focusses on studies methods used to support the cost chain, which covers the whole lot from substrate increase to wafer coaching to the deposition of purposeful layers which may additionally provide custom designed homes. IKZ and its research contribute, without delay or circuitously, to all regions of sustainable applications e.g. Environment, mobility, verbal exchange and information.

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