| 1. | Generation of tunable dual - wavelength optical short pulse using a self - seeding scheme with enhanced sidemode suppression ratio
以自激注入锁定方式生成边模抑制比高的可调谐双波长超短光脉冲 |
| 2. | Theoretic and experimental study on large - frequency - difference side - mode injection locking of high power semiconductor lasers for laser cooling
用于激光冷却的半导体激光器大频差边模注入锁定的理论及实验研究 |
| 3. | In the paper some newly developed technologies on all - fiber coherent beam combining are introduced . theoretial explanation of injection locking is given based on the simulation
摘要全面介绍了光纤激光器相干组束技术的发展现状,对注入锁定现象给出了相应的理论解释。 |
| 4. | In order to realize a experiment of laser cooling and trapping atoms , we have set up a laser diode injection locking system and achieved a laser with single mode , narrow linewidth and 60mw power output
为了进行原子冷却与俘获的实验研究,我们用注入锁定的方法获得了约60mw的单模窄线宽激光输出。 |
| 5. | And the new circuit structure for improving the locking range , that is , injection - locked phase - locked loop circuit ( ilpll ) is introduced into the millimeter wave circuit
在此基础上,结合注入锁定和环路锁相原理,在毫米波频率源中引入了一种新型的展宽带宽的电路结构环路注入锁定锁相电路( ilpll ) 。 |
| 6. | Considering of the subject ' s requirement and the practical conditions , the technology of three stages inject - locking amplifying was used to achieve the goal . in chapter 2 , we introduce the theory used in the experiment
以此为根据结合课题需要和实验室的实际条件,确定采用三级注入锁定放大技术实现ka波段固态脉冲放大源的研制。 |
| 7. | In the thesis , firstly , we report the setting up of our laser diode injection locking system . secondly , we analyzed the transient optical nonlinear response in four - level atomic medium induced by quantum interference effect
本文主要介绍半导体激光器注入锁定系统的研制以及四能级原子量子相干过程中瞬态非线性光学响应的分析。 |
| 8. | The thesis aims at finding a proper proposal to solve the difficult issue regarding the reliability of locking and make the system become stable and reliable and in the meantime , simple - structured and low - cost
本文旨在寻求合适的方案解决注入锁定存在的入锁可靠性难题,实现同步带宽的展宽,使其应用系统稳定可靠,同时结构简单、成本低廉。 |
| 9. | The mathematical model expression of asynchronous quenching differential injection locking ( il ) and a method which is used to analyse the asynchronous quenching injection locking ' s synchronizing band are expressed in this paper
摘要给出异步抑制差分型注入锁定数学模型的数学表达式,同时介绍一种用于分析异步抑制差分型注入锁定同步带的方法。 |
| 10. | The injection locked can make power be amplified , but limited by the working state of the injection locked oscillator , the injection locked power amplifier can only work in continued - wave or pulsed - wave condition
虽然采用注入锁定功率放大方案,可以实现功率的放大,但受被注入锁定振荡器的工作状态限制,该种方案功率放大器只能工作在连续波或者脉冲状态。 |
