Design and analysis of single-mode tellurite photonic crystal fibers for stimulated Brillouin scattering based slow-light generation

We theoretically examine two designs of single-mode (i) Er-doped tellurite and (ii) undoped tellurite photonic crystal fiber (PCF) for generation of slow light with tunable features based on stimulated Brillouin scattering. We obtained (i) Brillouin gain up to 91 dB and time delay of similar to 145 ns at maximum allowable pump power of similar to 775 mW in a 2 m Er-doped tellurite PCF and (ii) Brillouin gain up to similar to 88 dB and time delay of similar to 154 ns at maximum allowable pump power similar to 21 mWin a 100 m undoped tellurite photonic crystal fiber. Simulated results clearly indicate that the doped tellurite PCF with Er enhances the maximum allowable pump power and comparable time delay can be obtained even with reduced photonic crystal fiber length. We believe that the carried out examination and simulation have potential impact on design and development of slow-light-based photonic devices applicable in telecommunication systems, enhancement of optical forces, and quantum computing. (C) 2016 Optical Society of America