Optical Band-Pass Filter

Visit the Albrighter Technology Co.,Ltd. Store

Specifications

Central Wavelength: 550 nm
Bandwidth (FWHM): 10 nm
Peak Transmittance: 95 %
CWL(nm): 550±2
FWHM(nm): 10±2
T(min): 95%
Blocking(nm): 350-1100
OD: 4
Document icon Download Data Sheet Download icon

Features

  • Wavelength Selection: Allows precise selection of specific wavelength ranges, enabling tailored filtering for various optical applications.
  • Application Versatility: Suitable for diverse applications including clinical medicine, environmental experiments, fluorescence studies, and more, providing flexibility across different fields.
  • Light Source Compatibility: Compatible with arc lamps, gas discharge lamps, laser diode modules, and LEDs, facilitating seamless integration into different optical setups.
  • Customizable Options: Available in various configurations with customizable central wavelength (CWL), full width at half maximum (FWHM), and other specifications to meet specific application requirements.
  • Optical Performance: Ensures high optical transmission (T) while effectively blocking unwanted wavelengths, delivering clear and precise filtering performance.
  • Durable Construction: Constructed with high-quality materials and precise manufacturing processes, ensuring reliability and durability in demanding optical environments.
  • Wide Range of Sizes: Available in a range of diameters (Dia) and thicknesses (T), offering versatility and compatibility with different optical setups.

Summary:

  • Material: Optical glass, PMMA
  • Central Wavelength (CWL): Customizable
  • Full Width at Half Maximum (FWHM): Customizable
  • Transmission (T): Varies based on model
  • Blocking Wavelength Range: 200-10,000 nm
  • Optical Density (OD) Data: Varies based on model
  • Diameter (Dia): Varies based on model
  • Thickness (T): Varies based on model

Applications

  • Clinical Medicine: Used in medical imaging and diagnostic equipment for selective wavelength filtering, facilitating accurate analysis and diagnosis.
  • Environmental Experiments: Employed in environmental monitoring systems for analyzing specific wavelengths related to environmental parameters such as air quality and pollution.
  • Fluorescence Studies: Essential components in fluorescence microscopy setups for isolating fluorescence signals and enhancing image contrast.
  • Laser Diode Modules: Integrated into laser systems for filtering specific wavelengths, ensuring precise laser output for various applications including communication and materials processing.
  • LED Lighting: Utilized in LED lighting systems for color filtering and spectral control, enhancing lighting efficiency and quality.