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Integrated Optics - Model 40A-45A-52A-64A-14-PT-NF -Multi-Wavelengths Laser Combiner
A Multi-wavelengths laser combiner featuring 4 laser diodes integrated within an ultra-compact MM (multi-mode) fiber-coupled `Matchbox` housing. Experience cutting-edge technology with our highly configurable 4-Wavelength Laser Combiner—a compact powerhouse designed to transform your research in life sciences and fluorescence applications. This sleek device seamlessly integrates four distinct wavelengths into a single housing, ensuring unparalleled convenience without compromising performance.
- Four wavelengths
- Plug-and-play
- Single user interface for all 4 wavelengths
- Space-saving design
- No optics realignment
- Remote PC control
Flow Cytometry
Flow cytometry is a sophisticated analytical technique widely used in biomedical research and clinical diagnostics. It allows for the simultaneous analysis of multiple physical and chemical characteristics of cells or particles as they flow through a laser beam. By utilizing fluorescence and light-scattering principles, flow cytometry provides valuable insights into cell populations, allowing researchers to study cell morphology, identify cell types, and assess various cellular functions with high-throughput precision.
Laser Diffraction Particle Analysis
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Food sorting
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Widefield Microscopy
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Fluorescence Microscopy
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Confocal microscopy
Confocal microscopy is a powerful imaging technique used in biological and materials science research. By employing point illumination and a spatial pinhole, confocal microscopy eliminates out-of-focus light, resulting in sharper, high-resolution images. This method enables three-dimensional imaging of specimens with exceptional optical sectioning, making it valuable for studying biological structures and dynamic processes at the cellular and subcellular levels.
