漫射光宽视场光学天线的设计

利用光线追迹的方法分析了半球光学天线及另外两种截取角小于90°的欠半球和大于90°的超半球光学天线的光学增益和接收视场,提出了选择合适截取角的原则,并确认半球形光学天线是一种很合适的漫射光宽视场光学天线;同时分析了均匀能量环境下半球光学天线圆截面上接收到光功率的分布,并提出了设计半球形光学天线基本参量的原则;用光学理论推导出了采用半球形光学天线时能够到达光敏面的光线所应满足的条件,分析了它对光学滤波设计的意义.     

Pulsed pumped Yb-doped fiber amplifier at low repetition rate

A pulsed pumped Yb-doped double-clad fiber (DCF) master-oscillator power amplifier (MOPA) at low repetition rate is reported. Seeded by a passive Q-switched Nd:YAG microchip laser, the fiber amplifier can generate 167-kW peak-power and 0.83-ns duration pulses at 200-Hz repetition rate. Because of the pulsed pump approach, the amplified spontaneous emission (ASE) and the spurious lasing between pulses are well avoided, and the repetition rate can be set freely from single-shot to 1 kHz. Peak power scaling limitations that arise from the fiber facet damage are discussed.     

Laser diode end-pumped Nd：YVO4 regenerative amplifier for picosecond pulses

A diode dual-end-pumped Nd:YVO4 regenerative amplifier is reported. The influence of the cavity stability on the performance of the regenerative amplifier is studied. The experimental results match well with the analysis at high pump power. The mode locking seed pulses with 15 ps pulse width and 10 nJ single pulse energy at 86 MHz are amplified up to 4.7 mJ at 1 kHz, corresponding to the maximum amplification about 0.5 × 106 , by our regenerative amplifier. And an average power of 4.7 W is obtained at the repetition rate from 1 kHz to 10 kHz.     

超短脉冲展宽压缩系统的三维模型分析

在超短脉冲的展宽压缩系统的实验过程中,需要入射到展宽器中的光束倾斜一定角度.研究了在三维下光束倾斜入射到展宽压缩系统的情况,通过光束追迹法建立了展宽压缩系统的三维数学模型,给出了光束的水平倾斜角对展宽压缩系统的光程、群延时(GD)、群延时色散(GDD)等的影响,给出了展宽压缩系统的不同参数的相互补偿关系.通过计算,在引...     

Periodic adjustment of the position of a laser beam spot on a semiconductor saturable absorber mirror in a passively mode-locked solid-state laser

A laser diode end-pumped passively mode-locked Nd:YVO₄ solid-state laser with a semiconductor saturable absorber mirror (SESAM), in which the intracavity laser beam spot on the SESAM can be adjusted periodically, is investigated. Inserting a rectangular prism (RP) into the laser cavity is a promising approach towards the goal of periodically moving the position of the focus spot of the intracavity pulse on the SESAM surface to avoid the long-time irradiation of the laser beam on the same position, thereby solving a series of problems caused by damage to the SESAM and greatly prolonging its usage life. The adjustment of the rectangular prism in the laser cavity does not break the stable continuous wave (CW) mode-locked condition. The laser generates a stable picosecond pulse sequence at 1064 nm with an output power of 3.6 W and a pulse width of 14 ps. The instabilities of the output power and the pulse width are 1.77% and 4.5%, respectively.     

侧面抽运的掺Yb双包层光纤激光器

利用光纤角度磨抛侧面耦合新技术研究了侧面抽运的掺Yb双包层光纤激光器。实验上采取新的加工工艺获得了端面具有小锐角磨抛斜角的多模光纤,专门设计的高精密机械调整结构有效地将多模光纤的斜面和双包层光纤的侧面精确对准,通过不同的折射率匹配材料进行的研究,发现折射率匹配材料对于注入功率和抽运效率都有较大影响。实验中通过光纤角度侧面耦合器能够注入1．12W抽运光进入双包层光纤,侧面耦合效率最高可达80％。将该侧面耦合技术用于侧面抽运的掺Yb双包层光纤激光器,在单个尾纤输出的半导体激光器侧面抽运下得到光纤激光器的最大连续激光输出功率282mW,斜率效率为55．5％。实验结果表明,光纤角度磨抛耦合技术是掺Yb双包层光纤激光器的一种简单有效的侧面抽运方式。     

强泵浦下掺Yb3+双包层光纤激光器输出特性数值分析和实验研究

对强泵浦下线形腔掺Yb3+双包层光纤激光器输出特性进行了理论和实验研究。通过数值模拟,分析了泵浦光及激光在光纤中的分布、输出功率与泵浦功率的关系、光纤长度及腔镜反射率对激光输出功率的影响。在实验中,利用D型掺Yb3+双包层光纤获得了输出功率10 6W的光纤激光输出,斜率效率达86%。测量了在不同输出耦合条件下的输出功率、阈值泵浦功率和斜率效率,理论分析与实验结果基本一致,为进一步提高光纤激光器功率提供了理论和实验依据。     

高密度光盘径向倾斜对DPD循轨误差信号影响分析

根据高密度光盘参数 ,计算了聚焦光斑在光盘表面扫描过程中每个位置的光瞳光强分布 ,得到DPD(Differ entialPhaseDetection)循轨误差信号。考虑盘片的径向倾斜 ,在光瞳光强分布方程中引入盘片的径向倾斜角度参数 ,计算了高密度盘片产生径向倾斜时DPD循轨误差信号的变化 ,进而分析了盘片的径向倾斜引入的循轨伺服误差及其对循轨伺服的负面影响。结果表明 ,高密度盘片产生 0 .5°的径向倾斜相当于引入了 0 .0 12 μm的循轨误差     

游程长度受限码RLL(4,18)的研究

介绍了一种新的用于高密度光盘存储的游程长度受限码。给出RLL(4,18)码的构造方法和编解码步骤。对RLL(4,18)码的编码器和解码器进行了CPLD实现。对不同游程长度受限码的主要性能参数进行了比较。     

束状三水碳酸镁晶体合成及动力学研究

以NH4HCO3与MgCl2·6H2O为反应物料,采用低温液相法合成了束状三水碳酸镁晶体,采用XRD,SEM、FTIR对合成的试样进行了测试表征,确定了制备束状三水碳酸镁晶体的最佳制备条件:MgCl2·6H2O与NH4HCO3的反应初始浓度均为0.15 mol/L,反应温度40℃、反应时间60 min,反应初始溶液pH =9.3.在此基础上,初步建立了束状三水碳酸镁晶体的动力学模型.