Optical neural interfaces combining optogenetics and electrophysiology have been
demonstrated as powerful tools for distinguishing the causal roles of neural circuits in the …

Optogenetics and electrophysiology are powerful methods in neuroscience for precise
spatiotemporal control and recording of neural activity. Conventional flat optical fibers …

In the last two decades, optical techniques for modulating and monitoring neural activity
have changed the landscape of neuroscience. This has created a research drive towards …

The continuous exchange between the neuroscience and neuroengineering communities
that took place over the past decades has uncovered a multitude of technological solutions …

Optical fibers are between the most common implantable devices for delivering light in the
nervous system for optogenetics and infrared neural stimulation applications. Tapered …

Optical fiber technology has a critical role in modern neuroscience towards understanding
the complex neuronal dynamics within the nervous system. In this study, we manufactured …

This work presents our recent research on the development of high pulse energy and
narrow linewidth fiber lasers spanning from the near-infrared to the mid-infrared spectral …

Bidirectional Interfaces Based on Multimaterial Optical Fibers for Infrared Neurostimulation Page
1 Bidirectional Interfaces Based on Multimaterial Optical Fibers for Infrared Neurostimulation …

Conference title, upper and lower case, bolded, 18 point type, centered Page 1 Thermally
Drawn Biodegradable Optical Fiber for Neural Applications Parinaz Abdollahian a, b …

Due to their flexibility and robustness, polymer optical fibers represent a promising platform
for the development of brain-compatible implantable devices with reduced risk of tissue …