This invention involved a new methodology using novel targets, TMS stimulation and a hypnosis protocol to modulate traits and help chronic pain, addiction, and mental disorders.
Researchers at Stanford have developed, for the first time, a component analysis algorithm that does not require any assumption on the data structure or data generation process to find out the important components or trends in data.
Use of diamond in high power and high temperature electronics is ideal due to its inherent properties, notably an ultra-high critical electric field of 10 MW/cm. Electronic devices require p-n junctions to achieve these electric fields, and thus n-doped diamond is required.
Researchers at Stanford have developed a technique that leverages multifocal widefield optics to enable high-speed, synchronous, genetically-specified recording of neural activity across the entirety of mouse dorsal cortex at near-cellular resolution.
Stanford researchers have developed a scanning mirror and method for Rhodonea (Rose) scanning patterns, which are superior to Lissajous patterns for almost all imaging and ranging applications.
Researchers at Stanford, funded in part by the Chan Zuckerberg Biohub, have developed PMD (Protect, Modify, Deprotect), an immunofocusing strategy that can be used in vaccine development for the generation of antibodies targeting a specific epitope.
Derek F. Amanatullah and his research group developed an instrumented retractor that was designed to record the applied force, duration, and angle of retraction during a piriformis-sparing posterior approach to the hip.
Researchers in the Dionne group at Stanford have designed a nanoscale laser capable of self-isolated Raman Lasing, where lasing and isolation occurs within the same pumping mechanism.
Researchers in Prof. Karl Deisseroth's laboratory have combined optogenetics with functional magnetic resonance imaging (fMRI) to enable highly specific in vivo analysis of brain circuits.
Researchers in Prof. Karl Deisseroth's laboratory have used optogenetic tools to develop a precise, specific and inexpensive animal model of impaired memory.
Researchers from Prof. Karl Deisseroth's laboratory have developed techniques for specifically modulating the activity of excitable cells in vivo. This approach introduces light-responsive proteins to create photo-sensitive cells.
Researchers from Prof. Karl Deisseroth's laboratory have developed techniques for specifically modulating the activity of excitable cells in vivo. This approach introduces light-responsive proteins to create photo-sensitive cells.
The Dionne lab has developed ultrathin and compact devices for electrically driven beamsteering that fit on a semiconductor chip. These devices rely on resonant dielectric nanostructured surfaces known as "high quality factor" (high-Q) metasurfaces.