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 ...

Not all microscopes are created equal, though, with some being far more optimized for making fine measurements of the microscopic realm. This 3D-printed confocal laser scanning microscope is a ...

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 ...

I built a 3D printed, scanning laser confocal microscope so I could collect 3D surface topology and profilometry data! The microscope stage is based on an OpenFlexure "Delta" stage, and the ...

The Zeiss LSM 780 is a multi-purpose, visible light confocal laser scanning microscope. It is equipped with a 34 channel spectral array with laser lines at 405nm, 458nm, 488nm, 514nm, 561nm, 594nm and ...

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 ...

Ultrawide-bandgap semiconductors—such as diamond—are promising for next-generation electronics due to a larger energy gap ...

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 ...

The penetration depth of traditional confocal laser-scanning microscopy (LSM) systems is limited by light scattering. To avoid these limitations, multiphoton LSM uses a nonlinear fluorophore ...

On the two-photon front, there are also constant developments that can extend the usefulness of laser microscopy. One shortcoming of most two-photon microscopes is that the serial scanning of the ...

A team of researchers at JILA, led by Professors Margaret Murnane and Henry Kapteyn, has developed a groundbreaking ...