When reflecting on science and research, it is hard to find a technology that is as important as microscopy. Microscopy is not only of utmost importance as a tool for conducting research, there is ...

Designed with new manufacturing technology that creates lenses with shapes that are difficult to fabricate using other methods, Olympus’ new X Line™ series objectives and the UPLAPO-HR objectives for ...

Olympus delivers a breakthrough to life science microscopy with the launch of its next-generation X Line objectives. Ultra-thin lenses manufactured by a revolutionary polishing technique enable the ...

Researchers propose a synergistic computational imaging framework that provides wide-field, subpixel resolution imaging without added optical complexity via a metalens-transformer design. They ...

Smaller and more versatile laser confocal microscopy platforms would potentially be of great value for in vivo imaging of live biological specimens, in scenarios where the size of conventional ...

A new range of Olympus microscope lenses break through barriers of image quality, performing at the forefront of lens technology across the board in numerical aperture, image flatness and chromatic ...

A project at the University of Colorado Boulder (CU Boulder) has developed a new way to image neural activity in live animals. Described in Biomedical Optics Express, the device is a miniaturized ...

Strong Points: Easy to use. Several objectives and conditions to choose from. Extensive list of commonly used cameras. When using a microscope, it’s critical to use the right objectives set at the ...

Infrared microscopy involves the examination of small samples, usually within the 10 to 100 μm range. Spatial resolution becomes a significant concern on the scale. The infrared light's relatively ...