Biomedical Optics
Biomedical Optics
Biomedical optics focuses on the integration of precision optical components into medical diagnostic, therapeutic, and aesthetic devices. These systems rely on controlled light delivery, wavelength selection, and optical stability to achieve accurate imaging results and consistent treatment performance in non-invasive or minimally invasive procedures.
We supply precision optical filters, windows, mirrors, and prisms for medical and aesthetic device manufacturers, supporting applications such as laser hair removal, skin rejuvenation systems, and optical imaging equipment. Our optical components are designed to meet the performance, reliability, and consistency requirements of clinical and commercial medical devices.
Biomedical Optical Components Manufacturing
Our experienced optical engineering team has accumulated extensive expertise in assisting medical and aesthetic device clients to achieve product innovation. The team provides one-on-one technical support for each customer, from design optimization to mass production, ensuring seamless project execution.
Customer Application Portfolio
- Laser Hair Removal Devices
- Photon Beauty Equipment
- Optical Coherence Tomography
- Fluorescence Diagnostic Devices
- Endoscope Optical Systems
- Laser Therapeutic Instruments
Our Biomedical Optics Solutions
Optical Prisms for Medical Imaging
Optical prisms perform beam splitting, deflection, and optical path folding functions in medical imaging systems. We provide various types including right-angle prisms, pentaprisms, and beamsplitter prisms, manufactured from high-purity optical glass with high-precision angle processing to ensure imaging system resolution and contrast. Widely used in endoscopes, OCT systems, microscopes, and diagnostic devices, enabling compact optical designs and superior imaging quality.
Optical Filters for Laser Hair Removal
High-performance optical filters designed specifically for laser hair removal devices. Utilizing multi-layer dielectric coating technology to precisely control transmission at mainstream hair removal wavelengths including 755nm, 808nm, and 1064nm, while blocking UV and other harmful spectral bands. Our filters feature high transmission, steep cut-off edges, and excellent laser damage threshold, ensuring treatment energy is accurately delivered to hair follicle melanin, enhancing hair removal effectiveness while protecting surrounding skin tissue.
Optical Prisms for Medical Imaging
Optical prisms perform beam splitting, deflection, and optical path folding functions in medical imaging systems. We provide various types including right-angle prisms, pentaprisms, and beamsplitter prisms, manufactured from high-purity optical glass with high-precision angle processing to ensure imaging system resolution and contrast. Widely used in endoscopes, OCT systems, microscopes, and diagnostic devices, enabling compact optical designs and superior imaging quality.
Dichroic Mirrors for Fluorescence Imaging
Dichroic mirrors are core components in fluorescence diagnostic and imaging systems. Through precise multi-layer dielectric film design, they achieve efficient separation of excitation and emission light, with typical application wavelengths including 488nm, 532nm, 633nm, and others. Our dichroic mirrors feature steep transition bands, high reflectivity, and high transmission, effectively improving fluorescence signal-to-noise ratio. Suitable for fluorescence microscopes, flow cytometers, confocal imaging, and other advanced diagnostic equipment.
Beamsplitters for OCT Systems
Beamsplitters are used to construct interferometric optical paths in Optical Coherence Tomography (OCT) systems. We provide 50:50 standard splitting ratio and custom ratio cube beamsplitters and plate beamsplitters, offering precise splitting ratios and low polarization dependence at common OCT wavelengths including 800nm, 1050nm, and 1310nm. Excellent wavefront distortion control and surface quality ensure OCT systems achieve high axial resolution and extended imaging depth, widely applied in ophthalmology diagnostics and vascular imaging.