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研究成果 - 謝佳龍 博士

生物物理與分析技術組
謝佳龍 博士
奈米生物光學實驗室
主持人:謝佳龍 博士
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Point Spread Function Engineering for Spiral Phase Interferometric Scattering Microscopy Enables Robust 3D Single-Particle Tracking and Characterization
Nathan J. Brooks, Chih-Chen Liu, Yan-Hsien Chen, and Chia-Lung Hsieh*
ACS Photonics 11(12), 5239–5250 (2024)
Point Spread Function Engineering for Spiral Phase Interferometric Scattering Microscopy Enables Robust 3D Single-Particle Tracking and Characterization
Interferometric scattering (iSCAT) microscopy is currently among the most powerful techniques available for achieving high-sensitivity single-particle localization. This capability is realized through homodyne detection, where interference with a reference wave offers the promise of exceptionally precise three-dimensional (3D) localization. However, the practical application of iSCAT to 3D tracking has been hampered by rapid oscillations in the signal-to-noise ratio (SNR) as particles move along the axial direction. In this study, we introduce a novel strategy based on back pupil plane engineering, wherein a spiral phase mask is used to redistribute the phase of the scattered field of the particle uniformly across phase space, thus ensuring consistent SNR as the particle moves throughout the focal volume. Our findings demonstrate that this modified spiral phase iSCAT exhibits greatly enhanced localizability characteristics. Additionally, the uniform phase distribution enables reliable characterization of the particle’s optical properties regardless of its position. We substantiate our theoretical results with numerical and experimental demonstrations, showcasing the practical application of this approach for high-precision, ultrahigh-speed (20,000 frames per second) 3D tracking and polarizability measurement of freely diffusing nanoparticles as small as 20 nm.
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