Ultimately, the nearly magical pellicle membrane accomplishes what no conventional optic can - the simultaneous illumination and imaging of specimens with exquisite clarity and efficiency. This capability empowers microscopists to probe deeper and analyze the intricate secrets of the microscopic world in finer detail.

Edmund Opticspelliclebeam splitter

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Mwir beam splitter

Unlike traditional glass beamsplitters, pellicle beamsplitters utilize a fragile 2-5 micron nitrocellulose membrane coated with specialized dielectrics and stretched across a metal frame. This unique ultrathin design provides unparalleled advantages, including minimal dispersion for ultrashort pulse lasers, negligible double-pass distortions, laser damage thresholds exceeding 10 kW/cm2, and nearly perfect wavefront quality from strain-free mounting. Additionally, pellicles are unaffected by vibrations or thermal lensing. Ideal for advanced laser applications in research, medical, industrial, and defense realms, pellicle beamsplitters push the boundaries of laser technology through their robust yet fragile construction.

Diffractive beam splitter

Unlike traditional glass beamsplitters, pellicle beamsplitters utilize a fragile 2-5 micron nitrocellulose membrane coated with specialized dielectrics and stretched across a metal frame. This unique ultrathin design provides unparalleled advantages, including minimal dispersion for ultrashort...

Unlike conventional glass beamsplitters, the pellicle introduces negligible aberrations into the wavefront thanks to its microscopic thickness. The result is a crisp, undistorted image at the eyepiece or detector. This uniform performance across the aperture makes pellicle beamsplitters suited for quantitative microscopy.

With special dielectric coatings, pellicle beamsplitters can fine-tune the split ratio or optimize specific wavelengths for advanced techniques like fluorescence imaging. Their imperviousness to vibration and thermal lensing artifacts further improves stability and image fidelity.

Microscopes rely on high-quality optics to produce clear, precise images. At the heart of many advanced microscopes sits a specialized optic called a pellicle beamsplitter. This innovative component consists of an ultra-thin membrane that is just a few microns thick and is mounted in a rigid frame. Despite its gossamer appearance, the pellicle beamsplitter plays a profoundly important role.

Pelliclebeam splitter wikipedia

The beamsplitter's job is to divide the light path into two arms for illumination and imaging. The pellicle simultaneously lights both ways with close to equal brightness by transmitting and reflecting light with minimal loss. This clever splitting maximizes light usage efficiency, wasting no photons unnecessarily.

Unlock next-level laser performance with the revolutionary pellicle beamsplitter, now featuring our thinnest 2-micron nitrocellulose membrane yet for extraordinary 20kW/cm2 laser damage threshold and negligible dispersion even for femtosecond pulses. Our proprietary mounting technology preserves flawless wavefront quality across the 90mm clear aperture without distortion. Made with the highest precision to isolate your beam from vibrations, thermal lensing, and double pass artifacts, our pellicle beamsplitter represents the pinnacle of laser beam splitting innovation. When unsurpassed precision matters, trust the experts and elevate your laser system with the cutting-edge pellicle beamsplitter.

We have been supplying UV products to both domestic and oversea markets for a long period and our products have enjoyed a great popularity in this field.