Title :
Random Bit Generator Using Delayed Self-Difference of Filtered Amplified Spontaneous Emission
Author :
Lei Li ; Anbang Wang ; Pu Li ; Hang Xu ; Longsheng Wang ; Yuncai Wang
Author_Institution :
Key Lab. of Adv. Transducers & Intell. Control Syst., Taiyuan Univ. of Technol., Taiyuan, China
Abstract :
We propose a scheme for random bit generation with filtered amplified spontaneous emission (ASE). Using the filtered ASE, we can get larger signal fluctuations than when using directly detected ASE with a photodetector. Utilizing the delayed self-difference technique to improve the symmetry of filtered ASE, we experimentally achieve real-time 2.5-Gbit/s random sequence generation, which matches with the speeds of fiber communication for one-time pad encryption. Experimental results show that the generated random sequences can pass NIST tests as long as the delay time is beyond a threshold value, which is called the minimum delay time (MDT). Further simulation results indicate that there is a certain relationship between the MDT and bandwidth of the ASE signal.
Keywords :
delays; optical fibre communication; optical pulse generation; random sequences; superradiance; NIST tests; delayed self-difference; fiber communication; filtered ASE; filtered amplified spontaneous emission; minimum delay time; one-time pad encryption; random bit generator; real-time random sequence generation; signal fluctuations; threshold value; Bandwidth; Delays; Generators; NIST; Optical fiber filters; Random sequences; Superluminescent diodes; True random bit generator; amplified spontaneous emission (ASE); delayed self-difference; real time;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2014.2304555
