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Professor Marc Levoy and collaborators have enhanced the performance of the light field microscope (LFM) by solving the problem of non-uniform spatial resolution across the working range, especially the low spatial resolution at the native objective plane (in the middle of the

Researchers in Prof. Karl Deisseroth's laboratory have developed an optical imaging and optogenetics two photon laser system that uses a single beam to illuminate many sites in three-dimensions.

Stanford researchers have developed a microscope system that generates high-quality images in low-light conditions, and preserves delicate samples.

W.E. Moerner and Adam Cohen have patented the Anti-Brownian ELectrokinetic trap (ABEL trap) which can trap, measure, and manipulate sub-micron objects (e.g. single molecules) in solution at ambient temperature.

A team of Stanford engineers have developed a fast adaptive optics system for scanning, 3D imaging and sensing with a small (50 µm) multimode fiber (MMF).

Researchers in Dr. Karl Deisseroth's Lab have developed a microscope and methods to allow simultaneous recording of multiple different brain regions in a freely moving and behaving animal. Brain research is growing rapidly.

Light field microscopy (LFM) is a new technique for high-speed volumetric imaging of weakly scattering or fluorescent specimens.

The Light Field Microscopy (“LFM”) is a patented system that enables rapid acquisition of images to be virtually analyzed at any time in the future from different viewpoints or focus adjustments.