The Movable Objective Microscope ® (MOM ®) is a two-photon microscope capable of imaging deep within living specimens when combined with a Ti:Sapphire Laser. The MOM design is unique in providing ...

The inverted Zeiss CLSM 510 laser scanning confocal microscope is equipped with three PMT detectors, seven laser lines (405, 458, 477, 488, 514, 543, 633 nm), motorized Z-drive and a wide range of ...

The world's most advanced light microscopes allow us to see single molecules, proteins, viruses and other very small biological structures -- but even the best microscopes have their limits. Now ...

The inverted Nikon spinning disk confocal microscope is equipped with four laser lines (405, 488, 561, and 647 nm), 4x-40x air objective lenses, and 60x NA1.40 and 100x NA1.45 oil objective lenses.

Researchers have designed a microscope instrument so stable that it can accurately measure the 3-D movement of individual molecules over many hours -- hundreds of times longer than the current limit ...

TimesMachine is an exclusive benefit for home delivery and digital subscribers. About the Archive This is a digitized version of an article from The Times’s print archive, before the start of online ...

Heidelberg firm spun out of the European Molecular Biology Laboratory investing in production capacity and plans to launch new quantitative fluorescence imaging tool. Luxendo, a Heidelberg, Germany, ...

Quantum Microscopes are the next big thing, and it would soon help in seeing the "impossible" objects to be seen even under certain scientific instruments more recognizable. The world is evolving, and ...

Despite having extensive research about living and non-living things, mankind is still barely touching the surface of science, and there are many questions still left unanswered. In order to answer ...

JILA researchers have designed a microscope instrument so stable that it can accurately measure the 3D movement of individual molecules over many hours--hundreds of times longer than the current limit ...