Narrow bandpas filter, BP1064
Narrow bandpas filter, BP1064
BP1064 is a high-performance narrow bandpass filter manufactured by Mok Optics, designed for 1064 nm wavelength applications. The filter has excellent optical properties and can effectively select light of a specific wavelength while suppressing interference from other wavelengths to ensure signal clarity and purity.
Application Areas
1. Laser Technology: Used for output regulation of 1064 nm lasers to improve the quality of laser beams.
2. Spectral Analysis: In scientific research and industrial applications, it is used as a key component of analytical equipment to obtain high-precision spectral data.
3. Biomedicine: In biological imaging and laser therapy, it helps select lasers of specific wavelengths to enhance imaging and therapeutic effects.
4. Communication Systems: In fiber-optic communications, it acts as a wavelength selector to improve the reliability of signal transmission.
Product Testing
BP1064 undergoes rigorous testing and quality control to ensure its stability and performance under various environmental conditions. The test contents of BP1064 are as follows:
1. Optical transmittance: Measure the transmittance at 1064 nm wavelength to ensure that it meets or exceeds the design standards.
2. Bandwidth test: Evaluate the bandwidth of the filter to ensure that it works effectively within the design range.
3. Environmental adaptability: Test the performance of the filter under different temperatures and humidity to ensure its long-term stability.
Summary
BP1064 narrow bandpass filter has become an important component in the fields of laser, spectral analysis and biomedicine with its excellent performance and wide application prospects. Mok Optics is committed to providing high-quality optical products. The research and development and production of BP1064 reflects the company’s professionalism and innovation in optical technology. Whether in scientific research or industrial applications, BP1064 is an ideal choice for improving the performance of optical systems.