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 ...

Neuroscientists have developed innovative objectives for light microscopy by using mirrors to produce images. Their design finds correspondence in mirror telescopes used in astronomy on the one hand ...

Introducing the FLUOVIEW ™ FV4000 confocal laser scanning microscope and FV4000MPE multiphoton laser scanning microscope, featuring groundbreaking advancements in imaging technology that empower ...

Figure 1 (a) Structure of the mesoscopic objective, (b) Aberration distribution of the mesoscopic objective, (c) Wide-field imaging system built with the mesoscopic objective, (d) Laser point-scanning ...

Analyzing magnetic nanostructures with a high resolution is a test-and-measurement challenge, but it’s important for both advanced physics insight as well as real-world products such as high-density ...

The mIRage-LS optical photothermal infrared (O-PTIR) microscope has a spectral range of 3600-2700 and 1800-800 cm-1 for infrared (IR) spectroscopy and a spectral range of 3900 – 200 cm-1 for Raman ...

A microscope objective lens produces a real, magnified image of an object placed within the field of view. Before it is observed the image is then magnified again by the ocular lens, also known as the ...