Spatial light interference microscopy: principle and applications to biomedicine
In this paper, we review spatial light interference microscopy (SLIM), a common-path, phase-
shifting interferometer, built onto a phase-contrast microscope, with white-light illumination …
shifting interferometer, built onto a phase-contrast microscope, with white-light illumination …
[HTML][HTML] Roadmap on wavefront shaping and deep imaging in complex media
The last decade has seen the development of a wide set of tools, such as wavefront
shaping, computational or fundamental methods, that allow us to understand and control …
shaping, computational or fundamental methods, that allow us to understand and control …
Short-wave infrared confocal fluorescence imaging of deep mouse brain with a superconducting nanowire single-photon detector
Optical microscopy is a valuable tool for in vivo monitoring of biological structures and
functions because of its noninvasiveness. However, imaging deep into biological tissues is …
functions because of its noninvasiveness. However, imaging deep into biological tissues is …
Approaches to vascular network, blood flow, and metabolite distribution modeling in brain tissue
V Kopylova, S Boronovskiy, Y Nartsissov - Biophysical Reviews, 2023 - Springer
The cardiovascular system plays a key role in the transport of nutrients, ensuring a
continuous supply of all cells of the body with the metabolites necessary for life. The blood …
continuous supply of all cells of the body with the metabolites necessary for life. The blood …
[HTML][HTML] 1700 nm optical coherence microscopy enables minimally invasive, label-free, in vivo optical biopsy deep in the mouse brain
J Zhu, HR Freitas, I Maezawa, L Jin… - Light: Science & …, 2021 - nature.com
In vivo, minimally invasive microscopy in deep cortical and sub-cortical regions of the mouse
brain has been challenging. To address this challenge, we present an in vivo high numerical …
brain has been challenging. To address this challenge, we present an in vivo high numerical …
Optical electrophysiology: Toward the goal of label-free voltage imaging
Measuring and monitoring the electrical signals transmitted between neurons is key to
understanding the communication between neurons that underlies human perception …
understanding the communication between neurons that underlies human perception …
Deep-brain 2-photon fluorescence microscopy in vivo excited at the 1700 nm window
H Cheng, S Tong, X Deng, H Liu, Y Du, C He, P Qiu… - Optics letters, 2019 - opg.optica.org
Here we demonstrate deep-brain 2-photon fluorescence microscopy in mouse in vivo,
excited at the 1700 nm window. Through signal versus power measurement, we show that …
excited at the 1700 nm window. Through signal versus power measurement, we show that …
Fibre laser system with wavelength tuning in extended telecom range
We report on a laser system on the base of a fibre telecom source, a chirped pulse
amplification system, and low-birefringence large mode area photonic crystal fibre (LMA …
amplification system, and low-birefringence large mode area photonic crystal fibre (LMA …
Advances in the transport of laser radiation to the brain with optical clearing: From simulation to reality
Advanced laser methods have recently been used in human and animal head tissues for
functional and molecular imaging. Combining these approaches with various probes and …
functional and molecular imaging. Combining these approaches with various probes and …
Label-free assessment of hemodynamics in individual cortical brain vessels using third harmonic generation microscopy
We show that third harmonic generation (THG) microscopy using a 1-MHz train of 1,300-nm
femtosecond duration laser pulses enabled visualization of the structure and quantification …
femtosecond duration laser pulses enabled visualization of the structure and quantification …