GIAI-NBP780 ultra-narrowband filter is a high-performance filter designed to meet the needs of high-precision optical applications. The filter has excellent optical performance through precise optical design and advanced manufacturing technology. Its core parameter center wavelength is precisely controlled at 780.2nm, and the half-wave bandwidth is 11nm, which ensures the efficient transmission of light within a specific wavelength range. This filter plays a vital role in optical experiments. Its high transmittance and excellent cut-off performance provide researchers with accurate and reliable optical signals, effectively improving the accuracy and reliability of experimental results.
Model: BP905 Bandpass Filter
Specifications: Customized
Material: Optical Glass
Product Features
Precise center wavelength: The center wavelength of the NBP780 ultra-narrowband filter is precisely locked at 780.2 nanometers, ensuring that the target wavelength of light can be efficiently transmitted.
Narrowband transmission characteristics: The half-wave bandwidth is only 11 nanometers, which effectively limits the range of transmission wavelengths and improves the accuracy of wavelength selection.
Excellent cut-off performance: It effectively filters out light of other wavelengths, reduces the interference of background noise and stray light, and improves the purity of the signal.
High stability and durability: It can maintain stable optical performance under various experimental conditions, ensuring long-term reliability.
Applications
Infrared spectroscopy analysis: In infrared spectroscopy analysis, it is used to accurately measure and record spectral information near the wavelength of 780.2 nanometers, which is of great significance for the qualitative and quantitative analysis of material components.
Infrared imaging and detection: In infrared imaging and detection systems, filters can selectively transmit infrared light of specific wavelengths to achieve high-definition infrared image acquisition and detection.
Biomedical research: In biomedical research, it is used in infrared fluorescence imaging, cell analysis and other fields to help researchers accurately observe and analyze the infrared characteristics of biological samples.
Optical instruments and equipment: It can be integrated into optical instruments and equipment such as infrared spectrometers, infrared cameras, and infrared lasers to improve the instrument’s detection capability and performance for infrared light of specific wavelengths.
