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the signal photons directly into the backward direction enabling the investigation of thick, non-transparent cancer samples. Moreover, we will use CSRS’ backscattering property to record the CSRS spectrum
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(Sandro Heuke). You will develop a new coherent Raman technique called coherent Stokes Raman scattering (CSRS) microscopy. As the game-changer, CSRS will send the signal photons directly into the backward
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for future sub-3 nm technology nodes. The approach will also be tested for the inclusion of electron-photon scattering and applied to the simulation of optoelectronic devices such as quantum well LEDs and
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organic semiconductors through the coupling of photons and excitons to form an exciton polariton [8,9]. In this project, the application of organic exciton polaritons in memristors will be explored to first
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the inverse Faraday effect (IFE) and photon-magnon and exciton magnon interactions, and how these could be used to implement optically driven magnetic resonance. Specific Eligibility Conditions: Candidates must
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for clean energy (hydrogen); and silicon for photonics and solar. They will be characterised by state of the art methods including XPS, SEM, TEM, dynamic light scattering, optical methods and mass spec
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(hydrogen); and silicon for photonics and solar. They will be characterised by state-of-the-art methods including XPS, SEM, TEM, dynamic light scattering, optical methods and mass spec. The production methods