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lithography and/or atomic layer deposition and/or gate dielectric characterization methods will be considered favorably. Dutie and Responsibilities Develop, operate, and characterize semiconductor device
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Group (https://www.kcl.ac.uk/research/photonics-nanotechnology ) involves the development and applications of advanced photonic technologies and of novel nanomaterials to address modern challenges in
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| King's College London ). The research in Photonics & Nanotechnology Group ( https://www.kcl.ac.uk/research/photonics-nanotechnology ) involves the development and applications of advanced photonic
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of the proposed research program is to implement a dielectric waveguiding circuitry able to excite efficiently the plasmonic cavity both in fs-pulsed IR and cw visible regimes, so as to trigger non-linear and
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laser photolithography, deposition of metallic and dielectric layers, plasma and wet etching, as well as the production of layers using PECVD and ICP-CVD methods. Assembly of semiconductor photonic
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to characterize 2D materials, semiconductor devices, and biological materials from DC to the THz regime. The measurements enable the engineering of dielectric, magnetic and electrical transport properties of thin
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sensors. Printing of the high-value flexible electronic films with insulating, dielectric, semiconducting and conducting materials used in these devices makes a major and rapidly growing contribution to UK
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, and dielectric heating. PD measurements are feasible for quality assurance and factory assessment testing, as it identifies potential defects. However, there is no good documentation of correlation
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: Basic research in (quantum) optoelectronics: novel semiconductor lasers, nanophotonic devices Integrated waveguides, couplers, switches, modulators. On-chip solutions, e.g., photon emitters in dielectric
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dielectric films deposited on graphene using a non-contact microwave technique ( https://dx.doi.org/10.1021/acs.jpcb.9b11622) and monolayer graphene ( https://dx.doi.org/10.1021/acs.jpcb.9b11622 ) as a