Scattering reduction by structured light illumination in line-scanning temporal focusing microscopy
Line-scanning temporal focusing microscopy (LineTFM) is capable of imaging biological
samples more than 10 times faster than two-photon laser point-scanning microscopy …
samples more than 10 times faster than two-photon laser point-scanning microscopy …
Multiline orthogonal scanning temporal focusing (mosTF) microscopy for scattering reduction in in vivo brain imaging
Temporal focusing two-photon microscopy has been utilized for high-resolution imaging of
neuronal and synaptic structures across volumes spanning hundreds of microns in vivo …
neuronal and synaptic structures across volumes spanning hundreds of microns in vivo …
Two‐photon focal modulation microscopy for high‐resolution imaging in deep tissue
Y Zheng, J Chen, X Shi, X Zhu, J Wang… - Journal of …, 2019 - Wiley Online Library
Two‐photon microscopy (2PM) is one of the most widely used tools for in vivo deep tissue
imaging. However, the spatial resolution and penetration depth are still limited due to the …
imaging. However, the spatial resolution and penetration depth are still limited due to the …
Enhancing axial resolution and background rejection in line-scanning temporal focusing microscopy by focal modulation
Compared with two-photon point-scanning microscopy, line-scanning temporal focusing
microscopy breaks the limitation on imaging rate and maintains the axial resolution, which …
microscopy breaks the limitation on imaging rate and maintains the axial resolution, which …
Super-resolution and optical sectioning integrated structured illumination microscopy
Super-resolution structured illumination microscopy (SR-SIM) has attracted a great deal of
attention in the past few decades. As a wide-field imaging technique, SR-SIM usually suffers …
attention in the past few decades. As a wide-field imaging technique, SR-SIM usually suffers …
MUTE-SIM: multiphoton up-conversion time-encoded structured illumination microscopy
Multiphoton microscopy (MPM) plays important role in biological imaging for its low
scattering nature, yet it typically requires high illumination intensity. Although time-stretch of …
scattering nature, yet it typically requires high illumination intensity. Although time-stretch of …
Increasing the penetration depth of temporal focusing multiphoton microscopy for neurobiological applications
The first ever demonstration of temporal focusing with short wave infrared (SWIR) excitation
and emission is demonstrated, achieving a penetration depth of 500 µm in brain tissue. This …
and emission is demonstrated, achieving a penetration depth of 500 µm in brain tissue. This …
Lissajous scanning structured illumination microscopy
High-resolution fluorescent microscopic imaging techniques are in high demand to observe
detailed structures or dynamic mechanisms of biological samples. Structured illumination …
detailed structures or dynamic mechanisms of biological samples. Structured illumination …
Hybrid spatio-spectral coherent adaptive compensation for line-scanning temporal focusing microscopy
Line-scanning temporal focusing microscopy (LTFM) is promising for various biomedical
studies, due to its higher imaging speed compared to the gold-standard point-scanning two …
studies, due to its higher imaging speed compared to the gold-standard point-scanning two …
Temporal focusing multiphoton microscopy with optimized parallel multiline scanning for fast biotissue imaging
Significance: Line scanning-based temporal focusing multiphoton microscopy (TFMPM) has
superior axial excitation confinement (AEC) compared to conventional widefield TFMPM, but …
superior axial excitation confinement (AEC) compared to conventional widefield TFMPM, but …