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Field
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Your Job: Building on in-house fabricated devices, we have recently demonstrated the ability to shuttle electrons between gate defined quantum dots in Si/SiGe over micron-scale distances using only
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Offer Description Faculty/Unit/Organizational unit: Faculty of Chemistry/ Wroclaw University of Science and Technology Project: SONATA BIS 12, NCN, “Deciphering RNA self-replication with quantum chemistry
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techniques including terahertz, optical, and x-ray radiation. Candidates with a strong background in quantum materials, ultrafast lasers, and synchrotron or FEL-based x-ray diffraction techniques are highly
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for Physical Sciences Qubit Collaboratory (LQC) is a national Quantum Information Science Research Center hosted at the Laboratory for Physical Sciences (LPS) at the University of Maryland, College Park. The LQC
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, Physics , quant-ph , Quantum Science + Quantum Information Science + Quantum Optics + Theoretical Physics , Quantum Sensors , Theoretical Particle Physics , Theoretical Physics, HEP-Phenomenology (hep-ph
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of spin qubits in semiconductor devices, with advanced x-ray characterization and spin measurements of such devices. These systems include SiC spin defects and Si/SiGe quantum dots. A successful candidate
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-sustainable incumbents in light-emitting applications, such as rare-earth-based phosphors and heavy-metal-based quantum dots. We will explore the potential of these sustainable luminescent nanomaterials as
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time-resolved hard X-ray diffraction microscopy and spectroscopy on single-crystalline bulk and thin film quantum materials (e.g. ferroelectrics, multiferroics, strongly correlated electron systems
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tunable and narrow-bandwidth terahertz (THz) radiation sources and applying them to the study of light-active quantum materials. This position is supported by the Laboratory Directed Research and
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. Point defect-based QT facilitates quantum bits based on either the electron spin or photon polarization and is well suited for optical readout using the single photon emitter (SPE) property. Importantly