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confidence and freedom to be themselves in the workplace. For more information, visit: https://www2.aston.ac.uk/about/inclusive-aston Guidance on AI-Assisted Applications While we cannot prevent applicants
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to have the confidence and freedom to be themselves in the workplace. For more information, visit: https://www2.aston.ac.uk/about/inclusive-aston Guidance on AI-Assisted Applications While we cannot prevent
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. We strive to have robust inclusivity strategies in place, to encourage colleagues to have the confidence and freedom to be themselves in the workplace. For more information, visit: https://www2
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the workplace. For more information, visit: https://www2.aston.ac.uk/about/inclusive-aston Guidance on AI-Assisted Applications While we cannot prevent applicants from using AI tools to support their application
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out theoretical research on optical frequency comb and its applications. About the role: As the successful candidate you will be involved in the theoretical study and modelling of optical frequency
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to completion. To coach junior colleagues in research practices and techniques. For informal enquiries about this position, you can contact Prof. Richard Hogg, Professor Of Photonics (r.hogg1@aston.ac.uk
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. The research project will build on recent research performed in Dr. Perego’s team about the implementation of the mathematical Darboux Transformation in the optical domain resulting in the proposal
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enquiries about this position, you can contact Dr Auro Perego, Aipt Assoc Professorial Research Fellow (a.perego1@aston.ac.uk ) What we offer: Aston University is a vibrant campus located within Birmingham
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validation, which will be led in collaboration with our partners. Essentials include a PhD (or near completion) in mechanical/chemical/thermal sciences or related field; hands-on experience in sorption