핵심 개념
A novel continuous phase modulation technique for laser arrays enables precise wavelength control, high coupling efficiency, and improved tolerance to fabrication errors.
초록
The content introduces a novel grating modulation scheme called Continuous Phase Shift Grating (CPSG) for laser arrays. Unlike traditional uniform gratings where the wavelength is controlled by adjusting the grating period, CPSG introduces a fixed phase offset at the start of each grating period, resulting in an arithmetic progression of total phase shifts across adjacent lasers.
Key highlights:
- The continuous phase modulation ensures equal channel spacing and enhances the stability of the lasing wavelength under high coupling efficiency.
- The central wavelength of CPSG is less dependent on the exact physical positioning of the grating structures, making it more robust to minor lithographic errors.
- Simulation and experimental results demonstrate the feasibility and effectiveness of the CPSG design, achieving precise wavelength control and stable single-mode operation.
- CPSG devices maintain coupling efficiency comparable to traditional uniform grating structures, making them a promising solution for advanced optical communication systems and photonic integration.
통계
The wavelength difference between each CPSG channel can be expressed as: Δλ = (2NneffΛ)/(L), where N is the total phase shift, neff is the effective refractive index, Λ is the grating period, and L is the cavity length.
For the designed parameters, the lasing wavelengths of CPSG devices with different cavity lengths and phase shifts are:
Uniform grating (N=0), L=800 μm: 1560.000 nm
2π-CPSG (N=2), L=800 μm: 1560.475 nm
4π-CPSG (N=4), L=800 μm: 1560.950 nm
4π-CPSG (N=4), L=400 μm: 1561.900 nm
인용구
"The smooth and continuous nature of the phase shifts within each grating period characterizes the structure as a Continuous Phase Shift Grating (CPSG)."
"Different from traditional refractive index modulation, the central wavelength for continuous phase modulation is less dependent on the exact physical positioning of the grating structures."
"As long as the total phase shift is maintained with a fixed phase interval, minor phase errors between intervals do not affect the central output wavelength of the device."