Ultrafine electro-optical frequency comb based on cascade phase modulation with cyclic frequency shifting.

An ultrafine electro-optical frequency comb (EOFC) with plentiful comb teeth is demonstrated. Adopting a single-frequency fiber laser as a light source, cascade phase modulation based on a sinusoidal signal and a frequency-time transformation (FTT) signal is executed to generate the EOFC with high fineness. Meanwhile, a cyclic fast frequency shifting strategy is introduced to boost the number of comb teeth and the bandwidth of the EOFC. As a result, an EOFC with 12600 comb lines covering a broad bandwidth from -6.3 GHz to 6.3 GHz is established, corresponding to an ultrafine comb space of 1 MHz. Moreover, the power fluctuation of a comb tooth is less than 0.5 dBm. This state-of-the-art EOFC has significant potential in the field of precision spectroscopy.

[The research advancement and the application foreground of 2-methacryloyloxyethyl phosphorylcholine polymer membranes].

2-methacryloyloxyethyl phosphorylcholine (MPC) polymer membranes are synthesized as biomaterials of the biomembrane structure. The MPC polymer membranes have excellent biocompatibility and blood compatibility, they can effectively reduce protein adsorption and denaturation and inhibit cell adhesion even when the polymer membranes are in contact with whole blood in the absence of any anticoagulants. So, the MPC polymer membranes are widely used in blood purification, artificial organs, membrane oxygenator, and other field of biomedicine. The paper mainly expounds the research advancement and the application prospect of MPC polymer membranes.