While confocal microscopy uses a pinhole to reject out-of-focus light to generate the optical section, a multi-photon (or 2-photon) microscope uses a pulsed infrared laser to stimulate fluorescence ...

Discover how different light sources, including LEDs, arc lamps, and lasers, impact optical microscopy techniques like ...

Researchers at the University of Adelaide, as part of an international team, have developed an approach that makes advanced microscopy possible through an optical fiber thinner than a human hair.

The OLYMPUS BX51 research microscope is a union of Olympus infinity corrected optical systems (UIS2 – universal infinity system) and advanced fluorescence or differential interference contrast DIC ...

Cameras and other detectors can then be used to image the location of the fluorescence emission within the sample. Microscopes can be configured with many filter sets designed to image multiple ...

The team's paper, titled "Adaptive Optical Imaging with Entangled Photons ... forward to finding new real-world applications for advanced microscopy as we progress." More information: Patrick ...

Optical microscopes depend on light, of course, but they are also limited by that same light. Typically, anything under 200 nanometers just blurs together because of the wavelength of the light ...

The BioFrontiers Advanced Light Microscopy Core (BFALMC) is an open access user facility that serves the entire CU Boulder and local scientific community. BFALMC houses six different imaging systems ...

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 ...

Object visualization may be mediated by light or electron beams using optical ... imaging for advanced biological research applications. We developed 4Pi-SIM, which integrates 4Pi microscopy ...