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, lasers, quantum photonics, optical sensors, LEDs, photovoltaics, ultra-high speed optical transmission systems, bio-photonics, acoustics, power electronics, robotics, and autonomous systems. Technology for
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. These are essential components for optical quantum computers and quantum networks, where one bit of information is encoded in the quantum state of a single photon. You will be part of a team of 10-12 people between
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are represented as nonlinear flexible beams. Key stages and tasks will include: Developing and validating a one-way coupling model (prescribed wave-induced flow causing stem deflection) using existing measurements
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find working solutions to major research challenges in an ambitious field of quantum technologies. More specifically, you will be: Building advanced optical setups for cutting-edge experiments in quantum
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and Northeastern University, USA. Responsibilities The PhD project involves developing a flexible vegetation model within the OpenFOAM platform, where vegetation stems are represented as nonlinear
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Image processing Optical bench instrumentation – set up and alignment Numerical modelling Scientific software development Geochronology You should possess strong communication and academic writing skills
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research challenges in an ambitious field of quantum technologies. More specifically, you will be: Building advanced optical setups for cutting-edge experiments in quantum photonic technologies Realizing
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optics, solid-state physics, or sensing technologies. Ideal candidates have experience or motivation to work with optical setups, microwave control, spin physics, or diamond materials, and are willing
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. The project State-of-the-art quantum devices will need state-of-the-art fabrication tools. In this project we will combine methods of quantum optics to enhance tomorrow's fabrication tools. This challenging and
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. The overarching goal of this newly funded project is to realize quantum light sources coupled to quantum memories. Quantum memories are key components of optical quantum computers and scalable quantum networks