Biological Microscopes

FV1000MPE enables "brighter", "deeper" and "higher-resolution"

1.Brighter and deeper imaging with less damage.

By using femt pulse laser with negative chirp, FV1000MPE enables the observation brighter and deeper imaging with less damage.

2.Custom light adjustment for the exiting laser beam.

During observation of thick specimens, laser intensity can be changed in accordance with specimen depth and images can be captured with no changes in brightness.

3.Auto-adjustment of the beam in accordance with the excitation wavelength and objective.

With its auto beam expander, the FV1000MPE achieves auto-adjustment of the beam diameter in accordance with the objective and excitation wavelength and provides an optimal laser beam for multiphoton excitation microscopy.

4.Correcting for light refraction in the sample and providing deep imaging.

The FV1000MPE’s dedicated objective can allowing the formation of an ideal focal spot deep within the sample without reducing energy density.

5.Widefield design to detect fluorescence with no leakage of scattered light.

With its widefield design, the FV1000MPE can capture the maximum amount of fluorescent signal, along with scattered light, to provide highly efficient fluorescence imaging.

6.Even brighter in-depth observation with transmitted light detection.

A transmitted light fluorescence detector for multiphoton imaging, which detects transmitted fluorescence in addition to fluorescence scattered in the focal spot plane, and a dedicated high N.A. condenser are available for the FV1000MPE.