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research team, who will work on the monitoring and sensing of the fundamental physical phenomena occurring during laser-material interaction, in order to optimize laser-based material processing techniques
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Key takeaways In this project, we aim to construct integrated quantum light sources suitable for use in photonic quantum computing. We will use the ultra-low loss properties of silicon nitride
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interviews will take place within 3 weeks after the closing date of this vacancy. About the department The Chair of Laser Processing At the Chair of Laser Processing we study the fundamental physical phenomena
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Vacancies PhD student on Process Development of Green Steel Production Key takeaways The iron and steel industry are confronted with pressing challenges. Historically, the industry has heavily
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who will focus on further developing laser powder bed fusion (L-PBF) of NiTi-based shape memory alloys for the design and development of architected structures. Particular attention will be given
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department Our group performs research on advanced integrated photonic structures as platforms to enhance and control nonlinear and optomechanical interactions of light with matter. We pursue application in
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cellular, physical, and chemical elements that impact therapeutic response; validate this model for antibody-drug conjugates and immunotherapies; and conduct an innovation trajectory towards societal
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is to assess and optimize innovative medical therapies that can elicit favorable effects in the patients and promote heart recovery. For this purpose, this PhD is focused on developing an innovative
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adaptive methods to counteract or even exploit disorder in nanophotonic systems in combination with quantum states of light. Within AQO, we employ adaptive systems designed to compensate for fluctuations and
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Quantum Optics (AQO) combines adaptive methods to counteract or even exploit disorder in nanophotonic systems in combination with quantum states of light. Within AQO, we employ adaptive systems designed