%0 Journal Article %T 自注入锁定DFB半导体激光器用作φ-OTDR光源研究
Study on Self-Injected Locked DFB Semiconductor Laser as φ-OTDR Light Source %A 李秀丽 %A 朱旭阳 %A 张荣 %A 赵振明 %A 孔梅 %J Journal of Sensor Technology and Application %P 74-79 %@ 2331-0243 %D 2021 %I Hans Publishing %R 10.12677/JSTA.2021.92010 %X φ-OTDR分布式振动传感系统需使用窄线宽和频率漂移率小的相干光源，DFB半导体激光器的线宽通常在MHz量级且频率稳定性差，无法直接用作φ-OTDR系统的光源。本文使用光纤环形谐振器利用自注入锁定的方法来压窄DFB半导体激光器的线宽并稳定其频率，并且将其作为φ-OTDR分布式振动传感系统的光源。自注入锁定实现了约300倍的线宽压窄，振动传感实验显示该系统有时能测到振动信号有时不能，表明锁定过程中的跳模是自注入锁定激光器用于φ-OTDR振动传感系统时需要克服的困难。
A coherent light source with narrow linewidth and small frequency drift rate is needed for an φ-OTDR distributed vibration sensing system. The linewidth of the DFB semiconductor laser is usually in the order of MHz and its frequency stability is poor, so it cannot be used directly as a light source for an φ-OTDR system. In this paper, a fiber ring resonator is used to narrow the linewidth and stabilize the frequency of a DFB semiconductor laser by using the self-injection locking method, and the laser is used as the light source of an φ-OTDR distributed vibration sensing system. The self-injection locking can achieve about 300-time narrowing. The vibration sensing experiment shows that the system can sometimes distinguish vibration signals and sometimes cannot. We demonstrate that the mode hopping in the locking process is a difficulty to be overcome when the self-injection locking laser is used in the φ-OTDR vibration sensing system. %K φ-OTDR，振动传感，线宽压窄，自注入锁定
φ-OTDR %K Vibration Sensing %K Linewidth Narrowing %K Self-Injection Locking %U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=41603