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for Applications: April 1st , 2024 Closing Date for Applications: April 15th , 2024, 23h00m (Lisbon Time) Key words: #GHzphonons #brillouinscattering #phononiccrystal #waveguides Overview The Nanophononics Research
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control methods regarding micro-photonics waveguide arrays. Building upon the analogy between the temporal evolution of a quantum system and the propagation of light in a network of coupled waveguides, we
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, exploitation of the Electro-Optics effect for quantum state manipulation in simple waveguides or more complex quantum photonic circuits, opening the door to applications in quantum communication, computing, and
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in topological phononic crystal waveguides probed by pump-and-probe methods and Raman scattering in silicon and 2D materials; Advance experimental methods to study topological phonon waveguides and
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appropriate software; design and optimization experience such as the design of photonic crystal waveguides and cavities, the optimization of transmission and Q-factor, etc. measurement and analysis involving
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Centre de Nanosciences et de Nanotechnologies | Palaiseau, le de France | France | about 1 month ago
our group in the recent years, in strong collaboration with Politecnico Di Milano. It has been demonstrated that graded index SiGe waveguide can be used in a large wavelength range in the mid-IR, and a
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wavelengths to the visible for use in upconversion imaging systems. This role will focus on developing PPLN waveguides for Mid-IR conversion and cover waveguide design, optical characterisation, and integration
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Methods for Complex Acoustic Waveguides. The work will be carried out with main supervisor at University of Bergen in planned collaboration with external partners. This is an excellent opportunity to work
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systems. This role will focus on developing PPLN waveguides for Mid-IR conversion and cover waveguide design, optical characterisation, and integration with wider system-level components such as pump lasers
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project/work tasks: The PhD project has work title Wideband Methods for Complex Acoustic Waveguides. The work will be carried out with main supervisor at University of Bergen in planned collaboration with