Crystal Orientation Optimized Optical Frequency Shifter
- 技术优势
- Reduces power consumption by 8x Integrated polarization converter and frequency shifter Waveguide structure designed to null intrinsic material birefringence Can be integrated with optical components such as lasers
- 技术应用
- Highly efficient, compact frequency shifter and polarization converter
- 详细技术说明
- Optical frequency shifters have a wide variety of applications including heterodyne sensors, atomic interrogation, light detection and coherent optical communications. For these applications, the frequency shifters need to achieve near complete carrier suppression and high conversion efficiency. Current methods include electro-optic modulation and mechanically rotating half-plate frequency shifters, neither of these methods can attain high-speed frequency shifts and both consume large amounts of energy. There is a need for frequency shifters that can attain high-speed frequency shifts and achieve near complete carrier suppression with a high conversion efficiency. Researchers at the University of California, Davis have developed an X-cut Y-propagating crystal frequency shifter and polarization converter to reduce power consumption. The X-cut Y-propagating crystal orientation makes it possible to reduce power consumption by eight times. The Integrated polarization converter and frequency shifter also allows for high-speed frequency shifts. Finally, the waveguide structure nulls the intrinsic birefringence in the material, achieving near complete carrier suppression.
- *Abstract
-
Researchers at the University of California, Davis have developed an optimized frequency shifter and polarization converter for power reduction.
- *Principal Investigation
-
Name: Burcu Ercan
Department:
Name: Hongbu Lu
Department:
Name: Chuan Qin
Department:
Name: S.J. Ben Yoo
Department:
- 其他
-
Additional Technologies by these Inventors
- All-Optical Regenerators
- Optical Router Architecture
- Edge Router for Optical Label Switched Network
- Athermal Silicon Photonics With CMOS Compatibility
- Ultra-High Resolution Multi-Platform Heterodyne Optical Imaging
- Energy-Efficient All-Optical Nanophotonic Computing
- Silicon Based Chirped Grating Emitter for Uniform Power Emission
- Compact Vertical Optical Emitter and Interlayer Coupling
- Optical Interposers for Embedded Photonics Integration
Tech ID/UC Case
27333/2017-363-0
Related Cases
2017-363-0
- 国家/地区
- 美国
欲了解更多信息,请点击 这里
