Title :
Bandwidth simulations of 10 Gb/s avalanche photodiodes
Author :
Yao, Jie ; Loi, K.K. ; Baret, Patrick ; Kwan, Steven ; Itzler, Mark A.
Author_Institution :
JDS Uniphase Corp., West Trenton, NJ, USA
Abstract :
We have described numerical results of a high-bandwidth design of an InGaAs/InP APD without sacrifice in reliability and manufacturability. A thinner multiplication layer reduces avalanche time, and the optimised absorption layer thickness manages the speed trade-off between (i) the high avalanche gain required of a thin absorption layer and (ii) the hole and secondary electron transit times of a thick absorption layer. One-dimensional simulation suggests the possibility of good control of edge breakdown with an optimized design. Substantial further improvement in bandwidth is likely to require alternate design approaches such as a different material (e.g., Si or InAlAs) for the multiplication region and/or an optical waveguide structure
Keywords :
III-V semiconductors; avalanche photodiodes; frequency response; gallium arsenide; indium compounds; optical receivers; semiconductor device breakdown; semiconductor device models; transfer function matrices; 10 Gbit/s; InGaAs-InP; avalanche photodiode; bandwidth simulations; edge breakdown; frequency response; high reliability; high-speed receivers; internal gain; one-dimensional simulation; optimised absorption layer thickness; optimization; planar device structure; small-signal bandwidth; transfer matrix calculation; Absorption; Avalanche photodiodes; Bandwidth; Charge carrier processes; Design optimization; Electric breakdown; Indium gallium arsenide; Indium phosphide; Manufacturing; Optical waveguides;
Conference_Titel :
Lasers and Electro-Optics Society, 2001. LEOS 2001. The 14th Annual Meeting of the IEEE
Conference_Location :
San Diego, CA
Print_ISBN :
0-7803-7105-4
DOI :
10.1109/LEOS.2001.969006
