Remember that feeling when you first looked down on a microscope? Now you can re-live it but in slightly different way. [Venkes] came up with a way to make a Laser Scanning Microscope (LSM ...

The basic scheme here is known as confocal laser scanning fluorescence microscopy, where a laser at one wavelength excites fluorescent tags bound to structures in a sample. Light emitted by the ...

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 FV3000 Series has complete high and low range laser intensity control enabling ... nearly doubling the resolution of typical confocal microscopy. The system is easy to use with minimal user ...

The system delivers unmatched high-speed imaging, essential for capturing the dynamic in vivo response, with fine laser control pinpointing the precise site for optimum excitation efficiency ...

Example of tissue sample cut with laser microtome. Microtomes have metal, glass, or diamond blades. Metal blades are used to slice sections of plant or animal tissues for light microscopy histology.

The inverted Nikon N-SIM/A1 microscope is a combination structured illumination microscopy (SIM), laser scanning confocal and total internal reflection fluorescence (TIRF) microscopy system. SIM and ...

When laser spectroscopy is combined with microscopy, spatial variations of the chemical compositions of both organic and inorganic samples can be precisely determined. One of the spectroscopic ...

The microscope stage is based on an OpenFlexure "Delta" stage, and the confocal optics are constructed with a 3D printed body, some lenses, a 405nm laser, pinhole and photodiode.