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Field
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! The interaction between terahertz (THz) radiation and the collective vibrational modes of biological macromolecules is an emerging field in physical chemistry. Terahertz radiation can be exploited to studying
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-phonon interactions, which together form tri-partite coupling that gives rise to effective optomechanical interaction between collective excitonic states (optical) and vibrational modes (mechanical
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cooling air. The aerospace requirements for accurate steady and transient thermal control in challenging operating temperature and vibration rich environments drives the need for bespoke, innovative low
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. Lightweight aerostructures with high shear strength, vibration damping, and acoustic attenuation are crucial for meeting strength and noise certification requirements in the aerospace industry. Certain thin
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strength-to-weight ratio, corrosion resistance, and high-temperature strength sustainability. Lightweight aerostructures with high shear strength, vibration damping, and acoustic attenuation are crucial
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on the phase shift of vibration of the structure. However, the coupling effect of flow performance and vibration of structure, as the underlying mechanism of CMF operation, is not considered in the CMF
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, underwater noise, and 5G RF-EMFs, pro-environmental communication, and nature and mental health Internal further training & coaching: Opportunity to deepen your skills, including statistical methods skills
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-phonon interactions, which together form tri-partite coupling that gives rise to effective optomechanical interaction between collective excitonic states (optical) and vibrational modes (mechanical
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, reduced noise, and improved energy efficiency. This PhD research is to develop a digital-twin toolset to accelerate net-zero aviation progress. Aim Tasks of this PhD include Real-time digital twin
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, including lower emissions, reduced noise, and improved energy efficiency. This PhD research is to develop a digital-twin toolset to accelerate net-zero aviation progress. Aim Tasks of this PhD include Real