Learning optimal wavefront shaping for multi-channel imaging
Fast acquisition of depth information is crucial for accurate 3D tracking of moving objects.
Snapshot depth sensing can be achieved by wavefront coding, in which the point-spread …
Snapshot depth sensing can be achieved by wavefront coding, in which the point-spread …
In-vivo single-molecule imaging in yeast: applications and challenges
Single-molecule imaging has gained momentum to quantify the dynamics of biomolecules in
live cells, as it provides direct real-time measurements of various cellular activities under …
live cells, as it provides direct real-time measurements of various cellular activities under …
[PDF][PDF] 双螺旋点扩散函数技术及应用研究进展
曹博, 曹慧群, 林丹樱, 屈军乐, 于斌 - Laser & Optoelectronics …, 2022 - researching.cn
摘要双螺旋点扩散函数(DH-PSF) 技术通过对成像系统光瞳面波前相位的调控, 将系统的PSF
改造为DH-PSF, 可实现大深度, 高精度的三维纳米尺度成像, 被广泛应用于生命科学, 材料科学 …
改造为DH-PSF, 可实现大深度, 高精度的三维纳米尺度成像, 被广泛应用于生命科学, 材料科学 …
Learning an optimal PSF-pair for ultra-dense 3D localization microscopy
A long-standing challenge in multiple-particle-tracking is the accurate and precise 3D
localization of individual particles at close proximity. One established approach for snapshot …
localization of individual particles at close proximity. One established approach for snapshot …
[PDF][PDF] 基于点扩散函数工程的计算显微成像研究进展
刘鑫, 匡翠方, 刘旭, 郝翔 - Laser & Optoelectronics Progress, 2021 - researching.cn
摘要点扩散函数(PSF) 是衡量显微镜成像性能的关键参数, 传统显微成像技术中, PSF
越接近理想的艾里斑, 表明系统的成像性能越好. 随着计算显微成像技术的发展 …
越接近理想的艾里斑, 表明系统的成像性能越好. 随着计算显微成像技术的发展 …
[图书][B] Computational Fluorescence Microscopy for Three Dimensional Reconstruction
H Ikoma - 2021 - search.proquest.com
With rapidly increasing computational power, computational fluorescence microscopy is
advancing the frontier of biological imaging. Computational algorithms tailored for specific …
advancing the frontier of biological imaging. Computational algorithms tailored for specific …