Highly stable fiber-based photonic delay line with large and tunable delay.

A stable photonic delay line with large and tunable delay is essential for large-distance simulation, beamforming, and diverse photonic signal processing applications. Here, we demonstrate a fiber-based tunable photonic delay line (TPDL) with a maximum delay of 905 µs. Its environmental-related delay jitter is compensated for by a homodyne phase-locked loop (PLL).

High-resolution measurement of laser frequency drift using stable delayed self-heterodyne interferometry.

We demonstrate a laser frequency drift measurement system based on the delayed self-heterodyne technique. To ensure long-term measurement validity, an ultra-stable optical fiber delay line is realized by monitoring and locking the transmission delay of a probe signal with a well-designed phase-locked loop. The frequency stability indicated by overlapping Allan deviation is 6.

A method for the reconstruction of multifocal structured illumination microscopy data with high efficiency.

We present and demonstrate an efficient method for the reconstruction of profiles acquired by multifocal structured illumination microscopy (MSIM) utilizing few raw images. Firstly, we propose a method to produce nine raw multifocal images with enhanced modulation depth to accomplish the uniform illumination of the sample. Then, combing with the parameter of the arrays, we perform the standard construct reconstruction procedure of structured illumination microscopy (SIM) row by row and column by column.