Jim McMahon
Recent Articles
Visualization of tracheal ciliary patterns using spectrally encoded interferometric microscopy
A spectrally encoded interferometric microscopy system, combined with phase resolved Doppler optical coherence tomography, and supported by Negative-Stiffness vibration isolation captures and processes en face images of human ciliary beating in real-time.
Negative-stiffness vibration isolation, enabling research into the sub-microns
From the discovery of exoplanets to the characterization of nanoparticles, much of our most advanced technological research relies on ultra-sensitive vibration isolation systems. The best of these is capable of isolating sub-Hertz frequencies and enables precision research at the sub-atomic level. On the forefront of this enabling technology is Negative-Stiffness vibration isolation developed by Minus K Technology.
Full-field optical coherence technology
Integrating digital images, data lakes, machine learning (ML), and artificial intelligence (AI), CelTivity uses two proprietary technologies integrated that delineate tissue microstructures and intracellular activity.
Eliminating low-frequency vibration without electricity, compressed air
Minus K negative-stiffness vibration isolation counteracts low-level building noise, supporting smaller, more affordable genomic sequencers.