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对注入有源Fabry-Perot腔内的单纵模脉冲进行了延时理论分析, 计算了Fabry-Perot腔内增益, 并对脉冲输出进行了数值模拟, 结果表明当脉冲能量衰减到一定值时, 新增抽运粒子数提供的增益可以补偿腔内损耗, 延时脉冲的输出可以达到稳态. 然后利用激光二极管侧面抽运Nd: YAG激光器做为Fabry-Perot腔, 对外部入射的单纵模脉冲光进行了延时, 得到了延时时间2 ups、脉冲数量140个的实验结果. 最后利用有源Fabry-Perot腔对参考光进行延时, 声光移频器对信号光产生频移, 进行了外差实验, 实验结果与移频器的设置值相符, 误差在4%以内.
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关键词:
- 外差探测 /
- Fabry-Perot腔 /
- 延时
The delay theoretical analysis result of single-longitudinal-mode pulse injected in active Fabry-Perot cavity has been obtained. The gain in Fabry-Perot cavity has been calculated and the numerical simulation result of output pulse has been obtained. The results show that when the energy of the pulse decreases at a certain value, the gain produced by increased pump particle population can compensate the loss in the cavity and the delay pulse can achieve steady state. In experiment, the active Fabry-Perot cavity is a Nd: YAG laser sided pumped by laser diode. For the pulse inputed externally, we achieve 140 pulses within 2 ups. Finally, the reference light is delayed using the active Fabry-Perot cavity. And we show the heterodyne experiment of signal light whose frequency shift generated by an acousto-optic modulation (AOM), and the experiment results accord with the frequency shift of the AOM and the error is less than 4%.-
Keywords:
- heterodyne /
- Fabry-Perot cavity /
- time delay
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[19] Lin Y F, Zhang G, Zhu H Y, Huang Ch H, Li A H, Wei Y 2009 Acta Phys. Sin. 58 3909 (in Chinese) [林燕凤, 张戈, 朱海永, 黄呈辉, 李爱红, 魏勇 2009 58 3909]
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[1] Jia X J, Liu F N, Fu S G, Liu Y G, Yuan Sh Zh, Dong X Y 2007 Chin. Phys. 16 2993
[2] Han K, Xu X J, Zhou P, Ma Y X, Wang X L, Liu Z J 2011 Acta Phys. Sin. 60 074206 (in Chinese) [韩凯, 许晓军, 周朴, 马阎星, 王小林, 刘泽金 2011 60 074206]
[3] Li Y Ch, Zhang L, Yang Y L, Gao L, Xu B, Wang Ch H 2009 Acta Phys. Sin. 58 5473 (in Chinese) [李彦超, 章亮, 杨彦玲, 高龙, 徐博, 王春晖 2009 58 5473]
[4] Qin J X, Xi L X, Zhang X G, Tian F 2011 Chin. Phys. B 20 114201
[5] Wang X L, Zhou P, Ma Y X, Ma H T, Xu X J, Liu Z J, Zhao Y J 2010 Acta Phys. Sin. 59 5474 (in Chinese) [王小林, 周朴, 马阎星, 马浩统, 许晓军, 刘泽金, 赵伊君 2010 59 5474]
[6] Wang G Q, Wang J G, Li X Z, Fan R Y, Wang X Zh, Wang X F, Tong Ch J 2010 Acta Phys. Sin. 59 8459 (in Chinese) [王光强, 王建国, 李小泽, 范如玉, 王行舟, 王雪峰, 童长江 2010 59 8459]
[7] Geng C, Li X Y, Zhang X J, Rao C H 2011 Acta Phys. Sin. 60 114202 (in Chinese) [耿超, 李新阳, 张小军, 饶长辉 2011 60 114202]
[8] Chen G M, Hua L M, Lin H Ch, Pu J X 2011 Chin. Phys. B 20 094203
[9] Zhao W Q, Feng Zh D, Qiu L R 2007Chin. Phys. 16 1624
[10] Fortier T M, Jones D J, Ye J, Cundiff S T, Windeler R S 2002 Opt. Lett. 27 1436
[11] Gilles H, Girard S, Laroche M, Belarouci A 2008 Opt. Lett. 33 1
[12] Straber A, Waltinger T, Ostermeyer M 2007 Appl. Opt. 46 8358
[13] Dinovitser A, Hamilton M W, Robert A V 2010 Appl. Opt. 49 3274
[14] Targ R, Steakley B C, Hawley J G, Ames L L, Forney P, Swanson D, Stone R, Otto R G, Zarifis V, Brockman P, Calloway R S, Klein R S, Robinson P A 1996 Appl. Opt. 35 7117
[15] Tatterson K G 1998 Photon. Spectra 32 20
[16] Dorrington A A, Kunnemeyer R, Danehy P M 2001 Appl. Opt. 40 3076
[17] Shen J L, Kunnemeyer R 2006 Appl. Opt. 45 8346
[18] Koechner W (Translated by Sun W, Jiang Z W, Cheng G X) 2002 Solid-State Laser Engineering (Beijing: Science Press) pp78--154 (in Chinese) [克希耐尔W. 著 孙文, 江泽文, 程国祥译 2002 固体激光工程 (北京: 科学出版社) 第78---154页]
[19] Lin Y F, Zhang G, Zhu H Y, Huang Ch H, Li A H, Wei Y 2009 Acta Phys. Sin. 58 3909 (in Chinese) [林燕凤, 张戈, 朱海永, 黄呈辉, 李爱红, 魏勇 2009 58 3909]
[20] Ji F, Yao J Q, Zhang B G, Zhang T L, Xu D G, Wang P 2008 Chin. Phys. B 17 1286
[21] Zhang W R, Zeng X D, Man X K 2008 Infrared and Laser Engineering 37 146 (in Chinese) [张文睿, 曾晓东, 满祥坤 2008 红外与激光工程 37 146]
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