First order quasi one-dimensional (1-D) periodically-poled magnesium-doped lithium niobate (PPMgO: LN) optical strip waveguides are presented. Green laser of wavelength 532nm is obtained when launched with an incident laser of wavelength 1064nm. Experimental results show the conservation efficiencies are increased owing to the waveguide structures. For comparison, two special waveguides of the same width 160μm are fabricated by zinc-and-nickel co-diffusion and gallium diffusion, respectively. The zinc-and-nickel co-diffusion waveguides are verified to have process-dependent polarizations. However, only transverse magnetic (TM) mode waveguides are used because of larger diffusion depth for easy coupling. Similarly, only TM modes are supported in the gallium diffusion waveguides, which agrees quite well with those reported previously. When an incident laser of 8mW is coupled to the waveguides, the measured green laser conversion efficiencies are 22% and 18% for zinc-and-nickel and gallium diffusion waveguides, respectively. Comparing to those without waveguide structures on lithium niobate substrate, the allowable maximum input power is increased from 6mW to 8mW. That’s because the optical damage threshold of magnesium-doped lithium niobate is increased. Finally, in the appendix, a simple method for the fabrication of ridge structure by using gallium diffusion is proposed.