【摘 要】
:
A fourth harmonic generation (FHG) scheme in focusing beams is proposed and demonstrated for large aperture Nd:glass laser facilities. By placing the focusing lens before the FHG crystal, the problem of ultraviolet damage can be overcome, largely without
【机 构】
:
ResearchCenterofLaserFusion,ChinaAcademyofEngineeringPhysics,Mianyang621900,China
【出 处】
:
MatterandRadiationatExtremes
论文部分内容阅读
A fourth harmonic generation (FHG) scheme in focusing beams is proposed and demonstrated for large aperture Nd:glass laser facilities. By placing the focusing lens before the FHG crystal, the problem of ultraviolet damage can be overcome, largely without affecting FHG conversion efficiency owing to the large angular acceptance of the non-critical phase matching technique. A numerical simulation of the FHG process indicates that angular acceptance can be appropriately increased by lowering the working temperature and jointing the two adjacent compensating angles, so that FHG in focusing beams with relatively small F numbers becomes feasible. With a 170 mm × 170 mm × 7 mm and 65% deuterated potassium dihydrogen phosphate crystal mounted in a high-precision, temperature-controlled system, high-efficiency FHG has been demonstrated in the focusing beam with a full beam convergence angle of 36 mrad. When driven with a 223 J, second harmonic radiation (2ω), 1 ns flat-top pulse with a beam area of 130 cm2, corresponding to 1.7 GW/cm2 2ω input intensity, 182 J of fourth harmonic radiation (4ω) were generated.
其他文献
An optical alignment-free and highly accurate method is employed to measure the magnetic field-dependent refractive index of magnetic fluid (MF) in bulk. The measured refractive index decreases significantly with the increasing magnetic strength and then
Advanced micro/nanofabrication of functional materials and structures with various dimensions represents a key research topic in modern nanoscience and technology and becomes critically important for numerous emerging technologies such as nanoelectronics,
在成像偏振仪中引入偏振态发生器,以校准仪器,并提出了一种用于成像偏振仪的二次校准方法。偏振态发生器产生的标准偏振态经偏振仪测量后可得到偏振仪响应矩阵,从而对偏振仪潜在的误差进行一次校准。利用优化算法进一步解算偏振态发生器内四分之一波片的快轴方位角误差和线性二色性系数,从而对标准偏振态和偏振仪响应矩阵进行二次校准。在实验室内对该方法进行了测试,并计算了偏振态发生器的误差和修正后的偏振仪响应矩阵,实现了对成像偏振仪的二次校准。实验结果表明,本方法可提升成像偏振仪的测量精度。
本文指出光场压缩态|α,z〉A=S(z)D(α)|0〉和|α,z〉B=D(α)S(z)|0〉不完全等价,它们实质上是本文命名的压缩子(Squeezon)湮灭算符b=SaS 的两个本征态,具有完全相同的压缩特性,但本征值不同,光子统计分布和光子统计特性有显著差异,所含的能量状况亦很不相同。
以掺铈铌酸单晶为相位共轭镜构成了相位共轭光腔,测量了它的稳态输入输出特性。该特性表现出明显的双稳态。
基于带电粒子加速或减速而发射光子的自由电子激光器,为某些领域的研究工具提供了诱人的可行性。但是,由于它们需用直线加速器或回旋电子加速器作为电子加速源,因而使许多试验工作受到限制,目前,仅有少数自由电子激光器在运行。
Using two-step method InP epilayers were grown on GaAs(100) substrates by low-pressure metalorganic chemical vapor deposition (LP-MOCVD). X-ray diffraction (XRD) and room-temperature (RT) photoluminescence (PL) were employed to characterize the quality of
从理论和实验上研究了角向二阶少模长周期光纤光栅的扭转响应特性。理论分析发现角向高阶长周期光纤光栅的耦合谐振波长的扭转响应度依赖于光栅角向模式的阶数,角向二阶模式的扭转波长响应度约是角向一阶的2倍;同时,光栅扭转引起的相位失配使得光栅谐振峰强度在小扭转率区间内随光栅扭转率增加呈准线性减小,减小的快慢与相位失配量成反比。实验表明:角向二阶少模长周期光纤光栅的谐振波长的扭转响应度约是一阶的1.5倍,在顺逆时针扭转的情况下分别达到0.72 nm·(rad·m -1) -1 和0.82 nm·(rad·m -1)