Multi-Channel Fiber Optic Current Simultaneous
This paper presents a novel design methodology for simultaneous multi-channel fiber optic current sensor. It integrates additional sensing channels into a stand
Related Topics:
Experimental Procedures Multichannel Fiber
High-density multi-fiber photometry for studying large-scale brain
Here we present compact, chronically implantable, high-density arrays of optical fibers that enable multi-fiber photometry and optogenetic perturbations across many regions in the
A Dual-Color Fiber Photometry Method for Recording Astrocyte
Multi-channel fiber photometry recording NOTE: To ensure stable and full expression of the two calcium indicators, multi-channel fiber optic photometry was performed three weeks after the
A flexible and versatile system for multi-color fiber photometry and
In combination with a multi-color light source and appropriate optical filters, our approach offers remarkable flexibility in experimental design and facilitates the exploration of new molecular
Brain-wide multi-fiber recording of neuronal activity in freely moving
The current protocol focuses on our procedures of multi-fiber array assembly, surgical implantation, and recording. While we have chosen mice as our animal model, these methods can be
A flexible and versatile system for multi-color fiber
In combination with a multi-color light source and appropriate optical filters, our approach offers remarkable flexibility in experimental design and
Multi-channel fiber photometry for population neuronal activity
Fiber photometry has become increasingly popular among neuroscientists as a convenient tool for the recording of genetically defined neuronal population in behaving animals. Here, we report the
High-Density Multichannel Fiber Photometry
We provide a detailed description and construction guidelines of high-density fiber array implants, including step-by-step surgical procedures for implantation and extraction. We describe several types
multicore fiber
mplementations. Here, we experimentally demon-strate the secret key rate enhancement via space-division multiplexing using a . ulticore fiber. Our multiplex-ing technique exploits the
Applications and Development of Multi-Core Optical Fibers
In the following decades, scientists continued to explore and investigate multi-core optical fibers from theoretical, fabrication, and application aspects, and some noteworthy advances have
EXPERIMENTAL STUDIES OF MULTICORE OPTICAL FIBER
We present a system for optical experiments and rapid prototyping of fiber optical devices. The platform has real-time FPGA functionality combined with the ease of programming on LabVIEW.