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develop processes for the purification of hydrogen obtained from diol-based carrier molecules and to evaluate possibilities for the use of electrochemical compression processes. In this PostDoc position you
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. The IGNYTe project addresses the currently unresolved challenge of creating an efficient ultraviolet (UV) light source that can suppress spurious nonlinearities in direct drive fusion target compression. As
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, encryption/decryption and compression; use of microelectronics devices (including COTS); implementation, inference, verification and validation of algorithms** on processing hardware platforms for space
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collective negotiations agreements, this position requires a fully on-site work arrangement and may be eligible for a compressed workweek or a flex workday schedule. Flexible work arrangements are not
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) that demonstrates how you meet the criteria listed above. Flexible working We are open to discussions about flexible working. Whether it’s a job share, part time, compressed hours or another working arrangement
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of the project is to design, implement, and utilise a new beamline for ultrafast science with ultrabroadband optical attosecond pulses. The work will involve both ultrafast pulse compression and frequency
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. This will include several non-colinear optical parametric amplifiers for pulse generation spanning the blue to near infrared spectral regions, with pulse compression optics, and a transient absorption-type
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thermal conductivity b) Development of hBN thermal interface material that combines a high degree of compressibility and recovery c) Modeling, simulation and characterization of phonon transfer across
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materials or components HVAC fundamentals or refrigeration cycles (vapor compression and non-vapor compression) Building modeling, including integration with thermal storage or HVAC Absorption or adsorption
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Semantic Communications, Internet of Things, Data Compression and analytics, and Tactile Internet. What we offer We offer a vibrant and inclusive research environment with a strong interdisciplinary