Nonvolatile Reconfigurable Phase-Shifted Bragg Grating Filter With Tunable Wavelength and Extinction Ratio

Nonvolatile compact on-chip optical filters with a tunable spectral response are required in low-power optical communication systems and applications. By capping phase change materials (PCMs) films on a phase-shifted Bragg grating (PSBG), the key parameters of a filter such as center wavelength and extinction ratio can be tuned simultaneously for filtering or processing purposes. A 9 nm wavelength shift, and amplitude modulations of 16.1 dB in the transmission channel and 42.5 dB in the reflection channel while keeping the center wavelength unchanged are achieved in this filter at 1550 nm. Moreover, the device has a compact size of 500 nm x 31.9 mu m and an insertion loss as low as -0.76 dB, making it ideal for large-scale integration. The advent of such compact, reconfigurable, nonvolatile optical filters opens up new avenues for next-generation low-power general-purpose photonic integrated circuits (PICs) and has potential applications in wavelength division multiplexing (WDM) systems, spectral shaping, and on-chip signal processors.

Automated summary

Nonvolatile compact on-chip optical filters with a tunable spectral response have been developed for low-power optical communication systems and applications. By using phase change materials (PCMs) films on a phase-shifted Bragg grating (PSBG), the filter's key parameters, such as center wavelength and extinction ratio, can be simultaneously tuned for filtering or processing purposes. The filter achieved a 9 nm wavelength shift, and amplitude modulations of 16.1 dB in the transmission channel and 42.5 dB in the reflection channel, while keeping the center wavelength unchanged at 1550 nm. This compact device has a size of 500 nm x 31.9 μm and an insertion loss as low as -0.76 dB, making it ideal for large-scale integration. This development opens up new possibilities for next-generation low-power general-purpose photonic integrated circuits (PICs) and has potential applications in wavelength division multiplexing (WDM) systems, spectral shaping, and on-chip signal processors.