Title :
High-Performance Ge p-n Photodiode Achieved With Preannealing and Excimer Laser Annealing
Author :
Chen Wang ; Cheng Li ; Jiangbin Wei ; Guangyang Lin ; Xiaoling Lan ; Xiaowei Chi ; Chao Lu ; Zhiwei Huang ; Chaowen Chen ; Wei Huang ; Hongkai Lai ; Songyan Chen
Author_Institution :
Dept. of PhysicsSemiconductor Photonics Res. Center, Xiamen Univ., Xiamen, China
Abstract :
A germanium (Ge) n+/p shallow junction photodiode fabricated by a combination of low-temperature preannealing and excimer laser annealing of the phosphorus-implanted p-type Ge is demonstrated. The Ge photodiode shows a high responsivity of 0.48 A/W at the 1.55-μm wavelength and an extremely low leakage current density of 1 pA/μm2 at room temperature, over two orders of magnitude lower than that of diodes formed by the rapid thermal annealing process. In addition, the reverse leakage current is close to the theoretical limitation of Ge diodes dominated by the ideal carrier diffusion model. The well-controlled dopant profile of the Ge shallow junction should be beneficial for improving the performance of the diodes, which may also be used in making the source and drain of scaled Ge nMOSFET.
Keywords :
current density; elemental semiconductors; excimer lasers; germanium; laser materials processing; optical fabrication; p-i-n photodiodes; p-n junctions; rapid thermal annealing; excimer laser annealing; extremely low leakage current density; germnaium nMOSFET scaling; high-performance germanium n+-p shallow junction photodiode fabrication; high-performance germanium p-n photodiode; ideal carrier diffusion model; low-temperature preannealing; phosphorus-implanted p-type germanium; rapid thermal annealing process; temperature 293 K to 298 K; wavelength 1.55 mum; Annealing; Dark current; Germanium; Junctions; Photodiodes; Semiconductor lasers; Excimer laser annealing; germanium; high responsivity; low dark current; photodiode; pre-annealing;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2426016
