The Double-ended 750nm and 532nm Laser Output from PPLN-FWM

We investigate 750nm and 532nm dual-wavelength laser for applications in the internet of things. A kind of optical maser is developed, in which the semiconductor module outputs the 808nm pump light and then it goes into a double-clad Nd3+: YAG monocrystal optical fiber through the intermediate coupler and forms a 1064nm laser. The laser outputs come from both left and right terminals. In the right branch, the laser goes into the right cycle polarization Li.. NbO3 (PPLN) crystal through the right coupler, produces the optical parametric oscillation and forms the signal light lambda(1) (1500 nm), the idle frequency light lambda(2) (3660.55 nm), and the secondharmonic of the signal light lambda(3) (750 nm). These three kinds of light and the pump light lambda(4) together form the frequency matching and the quasi-phase matching, then the four-wave mixing occurs to create the high-gain light at wavelength 750 nm. Meanwhile, in the left branch, the laser goes into the left PPLN crystal through the left coupler, engenders frequency doubling and forms the light at wavelength 532 nm. That is to say, the optical maser provides 750nm and 532nm dual-wavelength laser outputting from two terminals, which is workable.