红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2013年
2期
344-348
,共5页
鞠有伦%戴通宇%申英杰%王强%姚宝权%王月珠
鞠有倫%戴通宇%申英傑%王彊%姚寶權%王月珠
국유륜%대통우%신영걸%왕강%요보권%왕월주
激光多普勒测速%激光技术%相干探测%种子注入
激光多普勒測速%激光技術%相榦探測%種子註入
격광다보륵측속%격광기술%상간탐측%충자주입
laser Doppler velocity measurement%laser technology%coherent detection%injection-seeded
报道了一台二极管泵浦种子注入Tm,Ho:YAP激光器.在重复频率100 Hz时,获得了单脉冲能量2.8 mJ、脉冲宽度289 ns的2.13滋m单频脉冲激光输出.利用该种子注入Tm,Ho:YAP激光器作为发射光源,以一个最大标称线速度20.4 m/s、直径10 cm的风扇作为模拟探测目标,通过外差式相干探测的方法进行了激光多普勒测速实验.利用本振光与信号光的激光拍频信号,得到包含模拟探测目标速度信息的多普勒频移,通过数据处理计算出了风扇不同转速条件下模拟探测目标的速度,并与模拟目标的实际速度进行了比对,测量速度误差小于1 m/s.
報道瞭一檯二極管泵浦種子註入Tm,Ho:YAP激光器.在重複頻率100 Hz時,穫得瞭單脈遲能量2.8 mJ、脈遲寬度289 ns的2.13滋m單頻脈遲激光輸齣.利用該種子註入Tm,Ho:YAP激光器作為髮射光源,以一箇最大標稱線速度20.4 m/s、直徑10 cm的風扇作為模擬探測目標,通過外差式相榦探測的方法進行瞭激光多普勒測速實驗.利用本振光與信號光的激光拍頻信號,得到包含模擬探測目標速度信息的多普勒頻移,通過數據處理計算齣瞭風扇不同轉速條件下模擬探測目標的速度,併與模擬目標的實際速度進行瞭比對,測量速度誤差小于1 m/s.
보도료일태이겁관빙포충자주입Tm,Ho:YAP격광기.재중복빈솔100 Hz시,획득료단맥충능량2.8 mJ、맥충관도289 ns적2.13자m단빈맥충격광수출.이용해충자주입Tm,Ho:YAP격광기작위발사광원,이일개최대표칭선속도20.4 m/s、직경10 cm적풍선작위모의탐측목표,통과외차식상간탐측적방법진행료격광다보륵측속실험.이용본진광여신호광적격광박빈신호,득도포함모의탐측목표속도신식적다보륵빈이,통과수거처리계산출료풍선불동전속조건하모의탐측목표적속도,병여모의목표적실제속도진행료비대,측량속도오차소우1 m/s.
A diode-pumped injection-seeded Tm,Ho:YAP laser was reported. The output single-frequency pulse energy of 2.8 mJ at pulse repetition frequency of 100 Hz with a pulse width of 289 ns was obtained. Using the injection-seeded Tm, Ho:YAP as the emission source, a laser Doppler velocity measurement experiment by means of heterodyne coherent detection was demonstrated. The detecting target was an air fan with diameter of 10 cm and the maximum linear velocity of 20.4 m/s. The Doppler frequency shift, carrying the velocity information of the air fan, was achieved from heterodyne signal between the local oscillator and the scattering light from the air fan. Under various velocity conditions, the linear velocity of the air fan was achieved from the experimental data. Compared with the actual speed of the air fan, the measurement error of experiment was less than 1 m/s.
