Microscopy continues to transform the life sciences. Here are five recent breakthroughs made possible by the technique.

Optical measurement techniques collecting light intensity in the far-field such as conventional and confocal microscopy or coherence scanning interferometry (CSI) enable fast and contactless ...

Researchers designed a computational framework that consists of a compact metalens-integrated microscope and a transformer-based neural network, which enables large FOV and subpixel resolution imaging ...

Schematic of THz near-field microscopy based on an air-plasma dynamic aperture. Two femtosecond laser pulses were focused in mutually perpendicular directions to generate two air-plasmas (Plasma1 and ...

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 ...

Optical microscopes are indispensable research tools in fields such as life sciences, medical science, and materials science. The objective lens is the core component of the microscope, determining ...

Introduction to SNOM: The Scanning Near-field Optical Microscope (SNOM) stands as a pivotal analytical tool in nanotechnology, enabling the visualization of nanostructures with resolution beyond 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 ...

insights from industryRon RubinovitzSenior Application ScientistThermo Fisher Scientific In this interview, AZoM talks to Ron Rubinovitz from Thermo Fisher Scientific about the utilization of FTIR ...