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. This gives rise to nanoscale out-of-plane ferroelectric domains whose optical signatures remain largely unexplored. The primary goal of this postdoctoral position is to develop and refine optical methods
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ultimate aim will be to exploit THz QCLs frequency combs (FCs) as nonlinear sources, coupled with optimised cavity-coupled coherent detectors. QCLs are practical miniaturized lasers at THz frequencies. FC
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and guidance system for these micro-swimmers, interacting with real-time optical visualization in a microfluidic network. • Study of the fidelity of the movement of micro-swimmers to the set trajectory
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additional modification. This phenomenon gives rise to out-of-plane ferroelectric domains. The goal of this postdoctoral position is to optically detect, track, and ultimately control the ferroelectric state
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(photons) and matter excitations (excitons), inheriting properties from both: they can propagate at speeds close to those of photons while exhibiting much stronger nonlinearities. The demonstration of robust
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molecular spectroscopy and nonlinear optics, and is a must for recruitement. Additional qualifications such as training and supervision of master students, and proficiency in Python and/or Matlab are valuable