This product is a dichroic mirror that reflects green light and transmits red and blue light. It can effectively transmit red and blue light with a high transmittance. At the same time, it reflects green light outside this band and exhibits a certain high transmittance performance for blue light and infrared. It can be used in various multi-color imaging and spectral systems, projection systems and laser displays.
Model: Dichroic Mirror
Specifications: Customized
Material: Optical glass
Product Features
Selective transmission and reflection: The dichroic mirror can precisely control the wavelength. Through the film design, it can achieve high transmittance for light of specific wavelengths (red light, blue light), effectively reflect the green light band, and ensure the accuracy and stability of spectral separation.
High transmittance and reflectivity: It has high transmittance in the red light (615-690nm) and blue light ranges, ensuring that the light signals of these wavelengths can effectively pass through the lens; at the same time, it has high reflectivity in the green light band (about 505-560nm), ensuring that the green light can be accurately reflected.
Durability and stability: Due to the multi-layer dielectric film stacking design, material selection and coating process, the dichroic mirror has high environmental adaptability and durability, and can maintain stable performance in different application environments.
Low signal crosstalk: It effectively reduces the crosstalk between red, blue and green light, ensures the purity of the optical signal, and is suitable for optical applications that require color accuracy.
Product attributes:
Material: optical grade glass
Incident angle: 45 degrees +/- 5 degrees
Size: custom
Optical parameters: 425-470T>90%, 615- 690T>95%, 505-560T<1%
Wavelength range: 400nm~700nm
Transmittance wavelength characteristics (reference data)
Applications
Microscope and Life Science Imaging:
In fluorescence microscopy, this dichroic mirror is often used to separate the emission and excitation light of different fluorescent markers. Since biological samples are often labeled with fluorescent dyes of different colors, this lens can effectively separate green light from red and blue light signals to improve the contrast and clarity of imaging.
Multicolor Imaging and Spectroscopic Systems:
In multicolor imaging systems, dichroic mirrors can separate and guide light of different wavelengths, which is suitable for imaging systems that need to accurately distinguish colors. For example, in medical imaging or industrial detection, it can help distinguish different sample features.
Laser Display and Projection Systems:
In laser projection systems, dichroic mirrors can be used to separate or synthesize laser beams of different colors to obtain high-quality display effects. This dichroic mirror can reflect green light while transmitting red and blue light, improving the color performance and contrast of the system.
Optical Communications and Sensing:
In some optical communication equipment, it can be used to separate light signals of specific wavelengths to improve the clarity and accuracy of the signal; in sensor systems, this lens can also be used to enhance the sensing capability of multi-wavelength signals.
Scientific research experiments:
In experimental research that requires light separation, this dichroic mirror can help researchers accurately separate or synthesize light of different wavelengths, thereby improving the reliability of experimental data.
