"Energy efficient Silicon transmittEr using heterogeneous integration of III-V QUantum dOt and quantum dash materials (SEQUOIA)"
"Monolithically integrated ultra-narrow band and wide-tunable high-power laser light sources based on 1.55 micron quantum dot material"
"Diamond-based Platforms for Long-term Growth and Investigations of Neurons"
"Investigation of fundamental physical properties of
coupled quantum well - quantum dot systems emitting in the near infrared range
of 1.3 - 1.55 micrometer. (QuCoS - Quantum Coupled Systems)"
"fs pulse generation by
MIXSEL (modelocked integrated external cavity surface emitting laser) based on
quantum dot gain and absorber elements"
“Microwave and Terahertz Photonics: technics and integration for generation and applications”, ITN, 7th framework
"Development of low-cost technologies for the fabrication of high-performance telecommunication lasers" , STREP, 7th frame work
"Epitaxy of monolithically integrated
III-V materials on silicon as light emitters"
"World Wide Welfare: high Brightness semiconductor lasers for generic use", IP, 6th frame work
"Governing the Speed of Light" , STREP, 7th frame work
"High-Q Semiconductor Nanostructures for Single Photon Emission, Detection and Manipulation" , STREP, 6th frame work
"TMR-sensors as technology platform for automotive applications"
"Technology for the Production of Massively Parallel Intelligent
Cantilever Probe Platforms for Nanoscale Analysis and Synthesis", IP, 6th
Projectstart: 2005 / Duration: 5 Years
This project was transferred from University Kassel to TU Ilmenau in 2007
"Quantum-Repeater Platforms on basis of Semiconductors"