Title :
Gain property analysis of a quantum dot doped inner cladding fiber
Author :
Dai, Yuan ; Pang, Fufei ; Wang, Tingyun
Author_Institution :
Key Lab. Specialty Fiber Opt. & Opt. Access Networks, Shanghai Univ., Shanghai, China
Abstract :
A quantum dot (QD) doped fiber amplifier (QDFA) was theoretically modeled by using a two-level system. Combining with the finite difference-beam propagation method (FD-BPM), the proposed numerical method can calculate the signal gain efficiently. In this fiber amplifier, the PbS QD was as an active inner cladding. With the unique cladding structure of the doubly clad optical fiber, we can get good transmission stability, pump utilization and big mode field of the signal light. After a proper structure design of the PbS QD inner-cladding doped fiber, the 160nm bandwidth of the gain spectra can be achieved, which covers the S-C-L band of the optical communication band. And the noise figure of the amplifier presents a very flat characteristic. The optimization of the inner cladding doped model is also presented in the paper.
Keywords :
electromagnetic wave propagation; finite difference methods; lead compounds; optical fibre amplifiers; optical fibre cladding; optical pumping; quantum dots; quantum optics; PbS; S-C-L band; active inner cladding; cladding structure; doubly clad optical fiber; finite difference-beam propagation; gain property analysis; gain spectra; optical communication; optimization; pump utilization; quantum dot doped fiber amplifier; quantum dot doped inner cladding fiber; transmission stability; two-level system; wavelength 160 nm; Abstracts; Educational institutions; Optical pumping; fiber amplifier; inner-cladding doped fiber; quantum dots;
Conference_Titel :
Communications and Photonics Conference and Exhibition, 2011. ACP. Asia
Conference_Location :
Shanghai
Print_ISBN :
978-0-8194-8961-6
