Multiphoton fluorescence microscopy for in vivo imaging
Multiphoton fluorescence microscopy (MPFM) has been a game-changer for optical
imaging, particularly for studying biological tissues deep within living organisms. MPFM …
imaging, particularly for studying biological tissues deep within living organisms. MPFM …
Synaptic basis of feature selectivity in hippocampal neurons
A central question in neuroscience is how synaptic plasticity shapes the feature selectivity of
neurons in behaving animals. Hippocampal CA1 pyramidal neurons display one of the most …
neurons in behaving animals. Hippocampal CA1 pyramidal neurons display one of the most …
In Vivo Neurodynamics Mapping via High‐Speed Two‐Photon Fluorescence Lifetime Volumetric Projection Microscopy
Y Li, X Xu, C Zhang, X Sun, S Zhou, X Li… - Advanced …, 2024 - Wiley Online Library
Monitoring the morphological and biochemical information of neurons and glial cells at high
temporal resolution in three‐dimensional (3D) volumes of in vivo is pivotal for understanding …
temporal resolution in three‐dimensional (3D) volumes of in vivo is pivotal for understanding …
High-efficiency generation of long-distance, tunable, high-order nondiffracting beams
X Yun, Y Liang, M He, L Guo, X Zhang, S Wang… - Photonics …, 2024 - opg.optica.org
Nondiffracting beams (NDBs) have presented significant utility across various fields for their
unique properties of self-healing, anti-diffraction, and high-localized intensity distribution …
unique properties of self-healing, anti-diffraction, and high-localized intensity distribution …
Adaptive optical correction in in vivo two-photon fluorescence microscopy with neural fields
Adaptive optics (AO) techniques are designed to restore ideal imaging performance by
measuring and correcting aberrations originating from both the microscope system and the …
measuring and correcting aberrations originating from both the microscope system and the …