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, allowing efficient transduction of mechanical vibrations into electrical signals at millikelvin temperatures. These devices support coupling between electronic, spin, and mechanical states. The proposed
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photometry and interferometric scattering microscopy, we will explore novel illumination and detection strategies to enhance signal-to-noise ratios and improve the accuracy and precision for molecular
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full-stack approach to suppressing errors in quantum hardware. This research focuses on achieving practical quantum computation by integrating techniques ranging from hardware-level noise suppression
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, allowing efficient transduction of mechanical vibrations into electrical signals at millikelvin temperatures. These devices support coupling between electronic, spin, and mechanical states. The proposed