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Field
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effects, from solitons to the nonlinear Fourier transform and from nonlinear optical loop mirrors to optical phase conjugation and parametric amplification. Today the AiPT pursues a diverse range of device
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, but not limited to: Mammalian cell culture, cell sorting, ex vivo and in vivo imaging (e.g. multimodal nonlinear optical microscopy, SIM, etc). Candidates with additional relevant skills or backgrounds
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the student to acquire expertise in designing, constructing, operating, and characterising high-power fibre laser amplifiers, nonlinear fibre optics, and optical phase detection and control. The main objectives
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from nanoscale and nonlinear photonics and fibre lasers to medical lasers and bio-sensing for healthcare and the high-speed optical communications technology that underpins the internet and the digital
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atmosphere. Our successful track record of scientific achievements ranges from nanophotonics, nonlinear photonics, and fibre lasers to medical lasers and bio-sensing for healthcare and the high-speed optical
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-locked fibre lasers and nonlinear fibre optics will be a plus. By joining AIPT you will be part of one of the largest research centres in photonics in UK and in Europe. AIPT is an internationally
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of ultrafast photonics, terahertz photonics and nonlinear optics are welcome to apply. We welcome application from candidates with atypical research career and specific research experience beneficial
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knowledge of laser operation and a history of international involvement and an aggressive publication strategy. Candidates with a strong theoretical profile in the area of nonlinear optics will be also
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in one of the following fields: ultrafast laser material processing (desirable), femtosecond laser direct writing (essential) fundamentals of light-mater interactions (essential) nonlinear optics
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that contains an atomic medium where a nonlinear optical process efficiently converts terahertz signals to optical light. The converted optical light is then detected with conventional optical photodetectors