Chauhan discussed how two-photon microscopy enables precise, non-invasive monitoring of retinal ganglion cell function in ...

Dopamine doesn’t flood the brain as once believed – it fires in exact, ultra-fast bursts that target specific neurons. The ...

This important study presents a new method for longitudinally tracking cells in two-photon imaging data that addresses the specific challenges of imaging neurons in the developing cortex. It provides ...

The in-orbit Chinese astronauts of the Shenzhou-15 crew successfully obtained the three-dimensional structural images of their skin cells with the country's self-developed two-photon microscope, its ...

Two new open-source tools are set to make fluorescence lifetime imaging microscopy—or FLIM—faster, simpler and more ...

An attosecond—or 0.000000000000000001 second—is no time at all for a person. That is not so for electrons, atoms and ...

A set of breakthroughs from scientists at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) is ...

Knowable Magazine reports on attosecond science, revealing how scientists study atomic interactions at unbelievable speeds to ...

Excitons have been created by injecting an electron into a molecule, and then removing another one, in rapid succession.

A set of breakthroughs from scientists at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) is offering a new ...

Researchers at Harvard Medical School have developed a highly sensitive microscope that can image the mechanical properties of living tissues.

The utility of this cell permeable probe is demonstrated in fluorescence microscopy emission ratio imaging experiments on mammalian cells. We further show that Zinbo-5 is well suited for two-photon ...