Project work within the BMBF joint project "tubLAN Q.0" on the realization of a quantum local area network with a focus on: Design， epitaxial growth and fabrication of single-photon sources with emission in the telecom O-band at 1.3 µm as well as their optical and quantum-optical characterization. The main areas of work are:Numerical design of quantum light sources based on semiconductor quantum dots Epitaxial growth of semiconductor heterostructures with quantum dot emission at 1.3 µm Fabrication of quantum light sources using state-of-the-art deterministic nanostructuring methods Optical and quantum-optical characterization of the sources
The quantum light sources are then to be used in a test environment for quantum communication and for the implementation of corresponding protocols for quantum key distribution.全球娱乐AV极品盛宴
Successfully completed university degree (Master， Diplom or equivalent) in applied physics or similar. Comprehensive knowledge and practical experience in the development and optical study of semiconductor components are required. Ideally， there is in-depth knowledge of the realization and study of quantum light sources based on semiconductor quantum dots. Communication and team skills are expressly welcomed. Good command of German and/or English required; willingness to learn either English or German is expected.
Please send your application with the reference number and the usual documents (single pdf-file97亚洲欧美国产中字99， max. 5 MB) by email to Prof. Dr. Reitzenstein (firstname.lastname@example.org).发布于：安徽省声明：该文视力仅代表作家自己，搜狐号系信息发布平台，搜狐仅提供信息存储空间作事。