强脉冲超硬Ｘ射线产生技术研究

 分析了利用强流脉冲电子束轫致辐射产生强脉冲超硬X射线的几种主要技术途径的特点，以及提高超硬X射线产额的方法；利用MCNP软件计算了电子能量在0.4～1.4 MeV范围内，超硬X射线产生效率与钽辐射转换靶厚度的关系曲线；介绍了在“强光一号”加速器上开展产生强脉冲超硬X射线实验方法与实验结果，获得了3种强脉冲超硬X射线：脉冲宽度约35 ns，输出窗面积约50 cm²，能量密度为5～7 J/cm²；脉冲宽度约35 ns，输出窗面积约50 cm²，能量密度为12 J/cm²；脉冲宽度约35 ns，输出窗面积约500 cm²，能量密度为1 J/cm²。     

掺Yb3+光纤激光器的特性与设计

 从速率方程出发，对波长为980nm的激光泵浦掺Yb^{3+光纤激光器进行数值模拟，全面分析激光器阈值功率、输出激光功率、增益等重要参数与泵浦功率、光纤长度、腔镜反射率、掺杂浓度等参量之间的关系。采用高浓度掺Yb3+光纤对环形光纤激光器做了初步实验研究，所得结论与实验模拟结果基本一致。}     

双包层光纤激光器最大输出功率的估算

 通过热传导方程和边界条件得到高功率双包层光纤激光器温度分布的简化解析解，利用ANSYS模拟验证了简化的合理性，并以双包层的掺镱光纤激光器为例，把外包层的临界温度设定为80 ℃，计算了光纤激光器在自然对流、风扇制冷和水制冷条件下最大输出功率。计算结果表明：自然对流的情况下，对流传热系数为10 W·m^-2·Ｋ^-1时，光纤激光器的最大输出功率为105 W；风扇制冷的情况下，对流传热系数为80 Ｗ·m^-2·Ｋ^-1时，光纤激光器的最大输出功率820 W；要达到kW以上功率输出，必须对光纤进行主动水冷。     

双端泵浦的高功率掺Yb3+双包层光纤激光器

 分析了Yb³⁺的能级结构、光谱特性以及激光发射特性。实验研究了中心波长为1 100 nm、输出功率为61.6W、斜率效率为55%的高功率掺Yb³⁺双包层光纤激光器。采用了两个中心波长在915 nm的高功率激光二极管分别从光纤的两端将泵浦光耦合进入光纤，采用45°对波长在（1 100±10） nm的激光高反，对波长在（915±10） nm的泵浦光高透的双色镜将激光输出，实验发现了掺Yb³⁺双包层光纤的合作发光效应。理论分析表明，掺Yb³⁺双包层光纤中合作发光效应是由Yb³⁺对在激光产生过程中的吸收与发射引起的。     

宽带可调谐掺Yb3+双包层光纤激光器的研究

利用闪耀光栅构成可调谐Littrow外腔,对掺Yb³⁺双包层光纤激光器的波长调谐输出进行了实验研究.激光调谐输出波长范围70nm.针对光纤内的双折射效应对激光的输出功率的影响,实验中使用了在线光纤偏振控制器,从而有效地减小了调谐曲线的起伏及其与荧光谱的差别,并得到了窄线宽、线偏振、宽带调谐的激光输出.     

两级钛宝石激光系统放大实验

 用两级多程放大构型进行了钛宝石脉冲激光的多程预放大和功率放大实验, 以倍频YAG为泵浦源, 当注入光能量为1nJ时输出脉冲能量达23mJ, 放大总增益大于10⁷。     

长脉冲高阻抗强流电子束二极管

 介绍了强光一号加速器长脉冲功率系统；分析了强光一号加速器长脉冲轴向绝缘高阻抗电子束二极管的管绝缘体和真空磁绝缘传输线的结构与绝缘性能；阐述了二极管工作阻抗和阴阳极的设计原则，给出了设计参数。实验研究表明：二极管电压0.75~2.6MV，电流65~85kA，电压幅值对应的工作阻抗14~44Ω，输出轫致辐射脉冲宽度100~400ns，100 cm²输出窗口的轫致辐射剂量率10⁸~2×10⁹Gy/s。     

虚阴极振荡器“硬管化”实验研究

 采用锆泵作为吸气泵，设计出静态保真空模拟实验装置。在该实验装置上进行了保真空可行性实验，装置在经过10 d的保真空后，真空度为1.4×10^-3 Pa 。在模拟保真空实验成功实现的基础上，用常规微波管技术设计加工了“硬管”器件，并进行保真空实验，静态下真空度经过15 d仍能维持在2×10^-2 Pa。该器件在峰值电压为330 kV的条件下，输出微波功率达到650 MW，脉宽为40 ns，主频为3.68 GHz，性能比普通器件有很大改善，微波脉宽更宽，频谱更单一，而且稳定性很高。     

空心聚苯乙烯微球电沉积金工艺

 采用自行设计的微球电沉积装置,建立了空心聚苯乙烯(PS)微球的电化学沉积金工艺。实验条件为：电源输出电压0.7~0.8 V,电流密度2.0 mA·cm^-2,镀液温度45 ℃,阴极转速250 r·min^-1,镀液流速7 mL·min^-1·cm^-2。在此工艺条件下制得的空心金微球对称性和厚度均匀性良好,表面粗糙度低于500 nm,微球表面沉积金速率约为6 μm·h^-1。     

光阴极RF腔注入器中激光脉冲的时间抖动

 介绍光阴极RF腔注入器中的驱动激光器,采用二极管泵浦的自锁模激光器,通过锁相,使输出激光脉冲的时间抖动小于2ps,实现激光脉冲同微波相位之间的严格同步,在实验上获得流强70A、能量2MeV、亮度4.4×10¹¹A/(m².rad²)的电子束。     

Development of high-efficiency 10 kHzmJps Yb:YAG laser for industry

We are currently developing a high-efficiency Yb:YAG regenerative amplifier pumped by CW diode lasers. The performance of the regenerative amplifier was estimated by theoretical calculations. For the excitation process, a rate equation was numerically integrated over the repetition interval with CW pumping. For the regenerative pulse amplification process, the Frantz-Nodvik equation was applied for each pass. The result of the theoretical calculation was compared with experimental data of a 2 mJ output pulse energy at a 10 kHz repetition rate. An optical-optical conversion efficiency of 17.8% was achieved. The outline of a prototype under development for a commercial product is also mentioned     

Highly Stable, Diode-Pumped Nd：YLF Regenerative Amplifier

We present the design and experimental results for a diode pumped Nd：YLF regenerative amplifier applied to amplify a nanosecond laser pulse. Numerical simulation shows that the maximum output energy and the best stability can be obtained when the regenerative amplifier operates in a saturated mode for all pulse duration and temporal profiles. Using extra post-pulse is a good method to decrease the square-pulse distortion caused by gain saturation effect. The amplifier shows output energy of 4.2mJ with a total energy gain of more than 10^7 and output energy stability of better than 1% rms. When extra post-pulse is added, square-pulse distortion is decreased from 1.33 to 1.17 for the amplifier that is seeded with an optical pulse of 3ns.     

High-power picosecond regenerative amplifier based on CW diode side-pumped Nd:YAG with high beam quality

A compact high-power picosecond regenerative amplifier based on continuous wave(CW) diode sidepumped Nd:YAG is demonstrated.Average power of 8.8 W is achieved at a repetition rate of 5 kHz at a wavelength of 1 064 nm with a pulse duration of 28 ps,corresponding to a pulse energy of 1.76 mJ and a peak power of 62.9 MW.The beam quality is close to the di?raction limit with Mx2 = 1.24,My2 = 1.03.To the best of our knowledge,this is the highest pulse energy obtained from a CW diode pumped Nd:YAG picosecond regenerative amplifier.     

Efficient diode pumped cesium vapor amplifier

An efficient diode laser pumped Cs vapor amplifier has been demonstrated. Using a 2 cm long Cs vapor cell pumped by an 18 W laser diode array, an amplification factor of 145 for low power Cs laser radiation was achieved. Such an amplifier or chain of amplifiers can significantly simplify the use of multiple pump sources for scaling the output power of alkali lasers.     

Synchronously pumped femtosecond dye oscillator-amplifier system at 815 nm

A tunable dye oscillator-amplifier system that produces 0.25 mJ, 105 fs pulses at 815 nm is demonstrated. The system consists of a synchronously pumped femtosecond dye laser followed by a dye amplifier that is quasi-longitudinally pumped using the frequency-doubled output from a Nd:YAG regenerative amplifier.     

双向抽运钛宝石啁啾脉冲激光多通放大的理论与实验研究

以双向抽运方式为基点，提出了新的、更接近实际的多通放大计算模型与方法，系统地计算分析了共焦腔双向抽运钛宝石激光放大器的放大特性，进而采用新的放大构型完成了啁啾脉冲多通放大．将实验结果与理论计算进行了比较，两者符合得很好．这种放大器大大减少了放大次数并彻底避免了再生腔必需的诸多光电元件 关键词：     

Resonance amplifier model describing diode lasers coupled to short external resonators

A model of a regenerative resonance amplifier has been used to describe Fabry-Perot GaAs diode lasers coupled to short external resonators. The optical gain and the equivalent input of the resonance amplifier are controlled by means of appropriate rate equations. Homogeneous line-broadening and proportionality between gain and electron density have been assumed in this approach. The model was applied to a diode laser coupled to an external plane mirror placed at a variable distance from one diode mirror. A numerical evaluation of the coupling coefficient between laser and external cavity enables to predict the measured power output and mode selective properties of the coupled system. A similar analysis was done for diode lasers coupled to external hemispherical resonators. The model calculation confirms the previously demonstrated mode selective properties of the hemispherical configuration which permitted stable single mode operation.     

Yb(3+)-ring-doped fiber for high-energy pulse amplification

We report what is to our knowledge the first demonstration of pulse amplification in a cw-pumped fiber in which the doped gain medium has a ring shape surrounding a single-mode core. For a given pump power, ring doping reduces the gain and hence the power lost to amplified spontaneous emission. Thereby, a significantly larger amount of energy can be stored in the amplifier. Using an Yb(3+)-doped fiber pumped by 540 mW of power at 1000 nm, we measured 69 microJ of extracted pulse energy at 1047 nm, the highest value reported to date from a single-mode Yb(3+)-doped fiber. We predict that a fiber cladding pumped by a diode bar can produce pulse energies in excess of 1 mJ.     

全光纤结构高功率主振荡功率放大型单频光纤激光器

研制了一台全光纤结构主振荡功率放大型掺镱单频光纤激光器。该光纤激光器包括种子激光器和级联放大器两部分。种子激光器是自行搭建的环形腔结构的单频窄线宽光纤激光器。在976 nm半导体激光器泵浦下,能够输出线宽为10 MHz量级、波长为1 079.88 nm的单频光,激光功率为10.02 W,光-光转化效率为58.9%,斜率效率为65.3%。     

高功率宽带射频调制连续激光源

射频强度调制激光作为激光雷达系统的载波可以有效提高系统的抗干扰和抗散射能力,高功率宽带射频强度调制光源是实现高分辨率远距离探测的关键.本文采用在Nd:YAG激光器的耦合腔中插入一对四分之一波片的方法实现了频差调谐范围为30 MHz—1.5 GHz的双频激光输出,结合光纤振荡功率放大技术,将双频信号光功率放大为50 W.耦合腔双频种子源具有良好的功率和频率稳定性,输出功率为9.5 mW时,功率标准差为0.145 mW,稳定性为1.52%,输出双频激光的频差为250 MHz时,拍频的标准差为1.6144 MHz.种子光进行三级光纤功率放大,得到50 W双频激光输出.放大后的双频激光功率波动范围小于0.1 W,双频拍频的标准差为1.777 MHz,很好地保持了放大之前的功率稳定性和双频频差稳定性.