相位测量
相位测量是一种用于精确获取波动信号相位信息的技术,广泛应用于物理学、工程学、光学、通信等领域。相位本质上是指波动周期内的某一特定时刻,波动在其波形中的位置。通过相位测量,可以深入了解波动的特性,如波的传播速度、干涉现象及波的相对关系等。
代表性论文
Aberration-robust monocular passive depth sensing using a meta-imaging camera, Light: Science & Applications 2024
Direct Observation of Atmospheric Turbulence with a Video-rate Wide-field Wavefront Sensor, Nature Photonics 2024
Two-photon synthetic aperture microscopy for minimally invasive fast 3D imaging of native subcellular behaviors in deep tissue, Cell 2023
Virtual-scanning light-field microscopy for robust snapshot high-resolution volumetric imaging, Nature Methods 2023
Real-time denoising enables high-sensitivity fluorescence time-lapse imaging beyond the shot-noise limit, Nature Biotechnology 2023
Rationalized deep learning super-resolution microscopy for sustained live imaging of rapid subcellular processes, Nature Biotechnology 2023
An integrated imaging sensor for aberration-corrected 3D photography, Nature 2022
sA digital mask to safeguard patient privacy, Nature Medicine 2022
Evaluation and development of deep neural networks for image super-resolution in optical microscopy, Nature methods 2021
Iterative tomography with digital adaptive optics permits hour-long intravital observation of 3D subcellular dynamics at millisecond scale, Cell 2021
Computational optical sectioning with an incoherent multiscale scattering model for light-field microscopy, Nature communications 2021
A modular hierarchical array camera, Light: Science & Applications 2021
Mirror-enhanced scanning light-field microscopy for long-term high-speed 3D imaging with isotropic resolution, Light: Science & Applications 2021
DiLFM: an artifact-suppressed and noise-robust light-field microscopy through dictionary learning, Light: Science & Applications 2021
Unsupervised content-preserving transformation for optical microscopy, Light: Science & Applications 2021
Super-resolution imaging of fluorescent dipoles via polarized structured illumination microscopy, Nature communications 2019
Video-rate imaging of biological dynamics at centimetre scale and micrometre resolution, Nature photonics 2019