What is a SelfFocusing Spectral Splitter?
A selffocusing spectral splitter is a precision optical component designed specifically for connecting and separating divergent light beams. It is typically used in passive optical devices for fiber optic connections to effectively collimate light beams and enhance the performance of optical systems.
Features of SelfFocusing Spectral Splitter
2.1 Excellent Collimation Performance
The selffocusing spectral splitter is renowned for its outstanding collimation performance. Through its unique design, it can effectively collimate divergent light beams, ensuring directional stability and consistency of light transmission.
2.2 Compact Size and Easy Assembly
With a compact design and simple installation process, the selffocusing spectral splitter is small in size and easy to install and adjust. This makes it an ideal choice for optical systems, especially in spaceconstrained applications.
2.3 Versatile Applications
The selffocusing spectral splitter finds wide applications in optical devices, including fiber optic collimators, fiber optic couplers, optical isolators, optical switches, as well as wavelength division multiplexing (WDM) and dense wavelength division multiplexing (DWDM) devices. Its multifunctionality and high performance make it indispensable in optical communication and optoelectronic fields.
Key Product Parameters
Diameter Tolerance:
Length Tolerance:
AR Coating:
Insertion Loss (Coating):
Reflection Loss (Coating):
Transmittance:
Effective Aperture:
Thermal Expansion Coefficient:
Angle:
Applications
The selffocusing spectral splitter has wide applications in the following areas:
- Fiber optic collimators
- Fiber optic couplers
- Optical isolators
- Optical switches
- WDM, DWDM devices, and other optical components
Contact Us
For more information about VY Optical’s selffocusing spectral splitter products or to place an order, please contact our sales team. We will provide you with professional technical support and highquality product services to help you achieve optimal performance in your optical systems.
