Multiphoton Laser Scanning Microscope
| Type | Optical, Infrared |
| Observation Technique | Multiphoton Laser Scanning, Flim, Epifluorescence, Frap, 2-Photon Laser Scanning, 3D, In-Vivo, Near-Infrared |
| Other Characteristics | High-Resolution |
| Ergonomics | Upright, Inverted |
| Applications | For Research, For Biology, For Brain Imaging, Neuroscience, Organ |
| Quality Of The Objectives | Apochromatic |
| Light Source | Laser |
Transform your images with the FLUOVIEW™ FV4000MPE multiphoton laser scanning microscope. Quantitative image data that can improve your experiments is provided by advanced imaging technology, which reveals the details and dynamics of your samples. Achieve significantly reduced noise, increased sensitivity, and enhanced photon resolving capabilities by incorporating our innovative SilVIR detector into the system’s core. The system enables demanding research applications by combining high speed with the ability to capture fast dynamics.
Engage with the system’s advancements, such as:
Obtain precise, quantitative image data that spans from the macro scale to subcellular structures.Live in vivo imaging that is gentler and of higher qualityAcquire additional information from a single multicolored image.High-speed imaging is employed to monitor the dynamics of neurons and other critical components.
The design is modular to accommodate your evolving requirements.
Simplicity in Multiphoton Imaging
Our next-generation SilVIR™ detector technology, which is silicon-based, is employed by the FV4000MPE microscope to facilitate the acquisition of precise, reproducible data.The SilVIR detector integrates two cutting-edge technologies: our patented* fast signal processing design and a silicon photomultiplier (SiPM).A wide dynamic range
Low-level noiseSensitivity is not diminished.Sensitivity variation is reduced in comparison to other detectors.
The FV4000MPE microscope, which is equipped with a TruResolution objective, can efficiently excite fluorochromes deep in your sample by concentrating excitation laser power to achieve a brighter image. This results in outstanding multiphoton images at depth.
MAECENAS IACULIS
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