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, advanced isotopic methods, scanning probe microscopy, X-ray and electron imaging, scattering or spectroscopy, geochemical modeling, and molecular modeling, to understand and control the fundamental molecular
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stability and performance in nanoscale materials for microelectronics. You will measure interfacial thermal conductance in 2D material systems using advanced optical methods such as time-domain
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of noise and error sources in superconducting systems. Familiarity with benchmarking and characterization methods for quantum computers. Experience with tensor network methods and other scalable
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communication with a record of leading and reporting results. Desired Qualifications: Knowledge of quantum computing algorithms. Familiarity with tensor network methods. Experience programming GPUs. Experience
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partners to develop and utilize novel characterization and diagnostic methods to identify critical performance and durability barriers for these electrochemical devices and develop hypotheses and strategies