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Field
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IV - Work Plan / Goals to be achieved: The tasks to be carried out during the BI are part of the Scinergy-WHR project - Activity 2 - Design of key components and enhancement of the basic WHR system
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electromagnetic interference; ii) Design of printing patterns for conductive (electromagnetic) inks; iii) Printing of substrates with varying printing parameters; iv) Electromagnetic shielding test; v) and
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, QIGA, QIEA) and identify limitations. 2-Design and prototype new quantum-inspired representations and variation operators (e.g., rotation-based mutation, entanglement-based recombination, collapse
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bring expertise in optical (bio)physics, particularly in the design and build of optical systems for measurement. You will have excellent communication skills and the ability to work both independently
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microscopy systems that integrate machine learning, robotic control, and real-time data analysis to achieve autonomous imaging and interpretation of complex materials systems. The Fellow will design and
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responsibilities Design, develop and refine experiments in translational neuroscience research in order to obtain reliable data. Assist in experimental medicine studies and other clinical trials as required. Assist
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recognition, appropriate for the applicant’s career stage, e.g. publications in high-quality international journals. Candidates should be able to demonstrate research independence, with the potential and
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the UQ community are broad: from being part of a Group of Eight university, to recognition of prior service with other Australian universities, up to 26 weeks of paid parental leave, 17.5% annual leave
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Recognition: Gain visibility with senior intelligence leaders while advancing your field. 2026/2027 Focus Areas: Artificial Intelligence, Biotechnology, Energy and Power, Microelectronics, and Quantum
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large datasets analyses Active participation in LALP Lab activities Required selection criteria You must have completed a doctoral degree in cognitive science or computer design/programming Training and