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, path finding and routing algorithms, sense of direction, human computer interaction, cognitive navigation, intelligent mobility, and artificial intelligence. Sensor fusion and Signals of Opportunity We
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based methods to observe low affinity interactions directly and relate them to structural and functional outcomes. In parallel, you will develop new sensors for intracellular potassium concentration
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(Japan). Resources Our in-house research facilities include: The Glasgow Laboratory for Advanced Detector Development (GLADD) developing the next generation of advanced sensor systems for particle physics
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: Electronics Photonics Novel Light Sources Structured Photonics Ultrafast Nonlinear Optics RF and Microwave Photonics More information: Photonics Quantum & Nano Technologies Quantum Sensors Quantum Circuits Spin
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for Advanced Detector Development (GLADD) developing the next generation of advanced sensor systems for particle physics experiments, medical applications and security systems. The SRDG Materials
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. As such, it encompasses a wide array of intellectual approaches and brings the particular rigour and demands of historical enquiry to a range of social science methodologies. As a PhD student, you will
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this process. Techniques used: The student will be trained in the analysis of large datasets (UK Biobank etc) coupled with a wide array of genetic, molecular and cell biology approaches including but not limited
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), dynamic light scattering (DLS), transmission electron microscopy (TEM). EV cargo characterisation – cytokine analysis, metabolomics, proteomics. Glycocalyx analysis – lectin arrays/blots, mass spectrometry