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, you will lead a wide range of optical fabrication and characterisation activities, working side-by-side with researchers to develop the world's lowest-loss on-chip optical resonators. A core part of
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). Proficiency in computational tools such as ANSYS, LS-DYNA3D, Abaqus, or similar FEA software. Excellent written and verbal communication skills. Ability to work independently and as part of a team. What do we
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resonators. A core part of this role will involve close collaboration with the California Institute of Technology (Caltech) and inter-institute visits to drive the project forward and translate our research
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verbal communication skills. Ability to work independently and as part of a team. What do we offer? A competitive salary and benefits package. A chance to work on a cutting-edge project with a significant
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, microphone array design, and portable device technology. You’ll be part of a vibrant, multi-disciplinary research environment, drawing expertise from across the University of Southampton, and helping to shape
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Huawei, you will contribute to cutting-edge projects that push the boundaries of spatial audio, microphone array design, and portable device technology. You’ll be part of a vibrant, multi-disciplinary
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from sustainable and durable materials that can be retrofitted to existing transformer enclosures. Transformer noise, particularly its low-frequency tonal components, poses significant challenges
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. Working as part of a multi-partner Innovate UK funded project we are seeking highly motivated individuals to join us in the development of digital engineering technologies to accelerate the design of
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model, suited to integrated system modelling, and to contribute to centrifuge testing of novel anchors You will be involved in the holistic design of floating wind systems as part of a large team with
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noise, particularly its low-frequency tonal components, poses significant challenges for conventional noise control methods. Acoustic metamaterials offer a promising alternative by breaking their acoustic