From overcoming classical optical limits to tracking single proteins in real time, super-resolution imaging continues to ...
Stretching protein samples in all directions pulls molecules farther apart, allowing them to be visualized using only light ...
Unlike almost every other kind of microscope, atomic-force microscopes (AFMs) don’t use any kind of optical beam to image ...
A team led by Raju Tomer, professor of biological sciences at Columbia University, has created a new design for microscopes and microscope lenses that could push 3D tissue imaging beyond ...
India, July 7 -- In a significant development, researchers from Bengaluru have shown for the first time that how a metal interacts with light can be actively tuned by applying mechanical strain. The ...
Human breast tissue imaged with SCOPE, a new device developed by Professor Raju Tomer and colleagues. The detailed 3D view of the milk-producing glands (called lobules) that are visible here is ...
Breakthrough microscope captures the fastest ever view of electrons in motion, opening a new window into the quantum world.
Metals possess the unique ability to trap and concentrate light into spaces much smaller than its wavelength through a ...
MRS, a 5MP monochrome USB camera built on the Onsemi AR0521 sensor and engineered for laboratory imaging applications where ...
Achieving the blackest of blacks has been one of humanity's enduring challenges. It is a frontier that unites modern ...
A dark point inside a beam of light should not be much of a traveler. Yet in a new experiment, some of those points appeared to move faster than light itself, darting through a wave field before ...
The technology at the center of the growing "resolution revolution" has again shown its value to scientists at Yale by ...