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Field
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outreach events related to antenna design, channel modeling, FPGA's programming, and satellite communication, inspiring young generations to be interested in related topics. Design phased array design using
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(passive and active devices) design and fabrication. Experience with on-chip laser development. Experience with ophthalmic OCT imaging in human and animal models. Experience with FPGA, embedded systems, and
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metal-organic frameworks, 2D/hierarchical structures, nanoparticles, single-atom catalysts), analytical instrumentation (including electronics and LabVIEW FPGA programming), finite element modelling using
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manipulation of ultracold gases. Examples of relevant technical skills include basic electronics, development of FPGA devices, development of narrow-line width lasers, laser frequency stabilisation and control
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record, experience in the field of fiber lasers and nonlinear optics, ideally, knowledge of electronics, Python and FPGA (VHDL) programming, interest in working with experts on a cross-institute
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analysis, and GPU/FPGA-based acceleration. Ability to work in a multidisciplinary team, collaborate with industry and international partners, and contribute to the design of next-generation electron imaging
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Science and Engineering). Our partners and funding projects provide access to hardware testbeds, such as RISC-V vector processors, Fujitsu A64FX, Graviton3, FPGAs, etc. As a postdoctoral researcher you will
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FPGA, as well as a GPU accelerated compute nodes. The postdoc project Hematological malignancies remain a significant cause of morbidity and mortality worldwide. A major pathological feature of
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(passive and active devices) design and fabrication. Experience with on-chip laser development. Experience with ophthalmic OCT imaging in human and animal models. Experience with FPGA, embedded systems, and
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background in microfabrication. Further, experience with experimental setups, large-scale data acquisition and analysis, FPGA programming skills, and knowledge of Python and C++ are important assets