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(ORNL). CSED performs transdisciplinary computational science and analytics at scale to produce advancements in physical sciences, engineering, and biomedicine and health. The Quantum Computational
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quantum computing, aiming to solve small, complex sub-problems using Quantum Process Units (QPUs) while leveraging classical High-Performance Computing (HPC) on data-intensive tasks. With dedicated
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overall system performance. Building on these principles, the proposed doctoral work will focus on the development of a high-frequency FPGA-based readout scheme operating around 1 GHz, targeting a compact
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academic partners. To collaborate with interdisciplinary teams, including experts in physics, chemistry, and those who work on quantum computing hardware. To perform any other duties related to the research
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in experimental physics and superconducting device development, with a focus on advancing multipixel single-photon camera technology and multiplexed readout for quantum information science applications
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in the development and operation of high-resolution electron microscopy and spectroscopy facilities for studying materials exhibiting emergent quantum phenomena. The successful applicant will have
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Track) in Ion Trap Quantum Computing (80-100%) Your tasks Contribute, as part of an interdisciplinary and international team, to multiple ion-trapping projects operated at both room and cryogenic
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Requisition Id 16104 Overview: The Quantum Heterostructures Group is seeking outstanding candidates for a postdoctoral position in quantum information science. You will conduct experimental
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. Experience contributing to or leading multi-investigator successful (funded) proposal efforts. Experience working in a computational and/or theoretical research environment. Familiarity with high-performance
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-of-the art computing resources. IU’s Quartz supercomputer, Big Red 200, is among the world’s fastest research supercomputers. Owned and operated solely by IU, these high-performance resources are designed