RQC Colloquium
29th RQC Colloquium
講演者
Dr. Emmanuel Flurin
(CEA-Saclay)日程
2024年12月10日(火)16:00-17:00(JST)
開催場所
ハイブリッド(Zoom・和光地区 C00 本部棟 2階 大会議室)
講演タイトル
Single Atom Magnetic Resonance by Microwave Photon Counting
お問合せ
rqc_colloquium_inquiry[at]ml.riken.jp
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https://krs2.riken.jp/m/rqc_registration_form
講演概要
Electron spin resonance (ESR) spectroscopy is a widely used technique for characterizing paramagnetic impurities, with applications ranging from chemistry to quantum computing. However, it is typically limited to ensemble-averaged measurements due to its restricted signal-to-noise ratio. Sensitivity sufficient to detect single electron spins has been achieved through methods such as spin-dependent photoluminescence, transport measurements, and scanning probes. Unfortunately, these techniques are often system-specific or sensitive to a small detection volume, leaving practical single-spin detection an ongoing challenge. Here, we demonstrate single-electron magnetic resonance via spin fluorescence detection [1], utilizing a microwave photon counter based on a superconducting transmon qubit operating at millikelvin temperatures. In our experiment, individual paramagnetic erbium ions in a scheelite CaWO4 crystal are manipulated and read out, enabled by magnetic coupling with a small-mode-volume, high-quality-factor superconducting microwave resonator. Leveraging this capability, we perform nuclear magnetic resonance of the nearby 183W nucleus [2], achieving single-shot nuclear spin readout and demonstrating second-scale coherence times for individual atoms. This quantum control over individual high-coherence nuclei opens new avenues for quantum computing. Our method, applicable to arbitrary paramagnetic species with sufficiently long non-radiative relaxation times, enables large detection volumes (~10 μm3), paving the way for ESR at the single-molecule level with unprecedented sensitivity and spectral resolution.
[1] Z. Wang et al., Nature 619, 276–281 (2023).
[2] J. Travesedo et al., arXiv:2408.14282
Flyer: 29th RQC Colloquium Flyer