Abstract
This technology provides a system for transforming the
spatial profile of light beams using a multi-layered optical configuration. It
is designed to enhance the performance of optical systems in communications,
imaging, and laser applications. By manipulating the phase of light across
multiple planes, the system enables efficient beam shaping and multiplexing
capabilities. The approach is scalable and adaptable to various operational
wavelengths, offering broad utility across photonics industries.
Technical Details: The
system utilizes a series of optical elements arranged to impart controlled
phase shifts to incident light. These elements are configured to achieve
desired transformations in beam shape and propagation characteristics. The
design supports integration with wavelength-division and spatial multiplexing
schemes, and is optimized for low insertion loss and high mode fidelity.
Fabrication methods are compatible with standard optical manufacturing
processes, enabling practical deployment in commercial systems.
Benefit
Enhanced Optical Performance: Improves beam quality and transmission efficiency.Scalable Design: Suitable for both small-scale and high-power optical systems.Broad Compatibility: Works across multiple wavelengths and optical formats.Application Flexibility: Adaptable to various photonic use cases.
Market Application
Telecommunications: Supports high-capacity data transmission using spatial and spectral multiplexing.Laser Systems: Enables advanced beam shaping for industrial and scientific lasers.Imaging and Sensing: Enhances resolution and signal quality in optical sensors and imaging platforms.
Brochure
