This structure can solve the problems of catastrophic optical damage of facet, thermal damage and poor light beam quality effectively.
该机理能有效地解决光功率密度过高引起的端面灾变性毁坏、热烧毁和光束质量差等大功率激光器存在的主要问题。
Using the transition matrix method, the relationship between the catastrophic optical damage threshold and the coating structure of semiconductor lasers were analyzed.
采用转换矩阵的处理方法,对大功率半导体激光器腔面光学灾变阈值与膜层结构的关系进行了分析。
However, he warned anyone thinking of photographing bubbles to take care if using an optical viewfinder, as the reflected sun could potentially damage the retinas.
但是他提醒那些想拍摄肥皂泡的爱好者,如果使用光学反光镜,太阳光的反射可能会损害视网膜。
But a powerful laser could probably burn sensitive optical sensors on a satellite, doing permanent damage.
但一束激光强光可能会烧坏卫星上的光敏传感器,造成永久损害。
Optical interference of pedestrians and drivers visual function damage more light pollution.
光干涉对行人和司机视觉功能的危害更甚于光污染。
Stray light generated in optical system forms a lot of ghost images, which not only seriously influence the beam quality and propagation properties, but also damage optical components.
光学系统的杂散光极易在系统内形成多个鬼像,这不仅严重影响光束质量和传输特性,并可能对系统光学元件造成永久性损伤。
At last, the suggest for improving the laser induced damage thresholds on optical materials was given.
最后提出了提高光学材料激光损伤阈值的方法。
The optical microscope and SEM were employed to analyze the damage of glass fiber during weaving and resin permeability in the course of molding of composite materials.
同时采用光学显微镜和SEM分别对织造中玻纤断裂情况和树脂在复合材料成型过程中的渗透性进行了研究。
Thus, it is very significant to research the damage mechanism of optical film and improve laser induced damage threshold (LIDT).
因此研究光学薄膜的激光破坏机制,如何提高激光损伤阈值,具有重要的实际意义。
This geometrical configuration of CAP on the surface of the substrate was proposed to damage the stabilities and efficiency of azobenzene derivatives based optical storage devices.
可以推测,聚合物在衬底表面的这种状态将对偶氮光存储器件的稳定性和工作效率产生不良影响。
The results indicated that the preparation of optical films of fiber laser, effectively raise the laser damage threshold, and solve the problem of the film firmly under low temperature deposition.
结果表明,本文制备的光纤激光器光学膜,有效的提高了激光损伤阈值,解决了低温冷镀的膜层牢固性问题。
Nodule defects on dielectric multi-layer optical thin film are key factors resulting in laser-induced damage.
在多层介质薄膜中,节瘤缺陷是影响薄膜激光损伤的关键因素。
The lifetime of optical components in high-fluence ultraviolet (UV) laser applications is typically limited by laser-initiated damage and its subsequent growth.
高能紫外激光应用中光学元件的寿命主要受限于起始损伤及后续的损伤增长。
Precise measurement of the laser-induced damage threshold can be used to effectively evaluate the laser damage resistance of optical thin films.
准确测定光学薄膜的激光损伤+阈值可以衡量光学薄膜的抗激光损伤+能力,测定损伤阈值的关键是准确地判定损伤的发生与否。
Meanwhile, the transmission spectra and damage threshold of KDP crystal were measured. The results showed as-grown crystal has good optical properties.
同时,测试了晶体的透过光谱和光损伤阈值,发现快速生长的晶体有着较好的光学性能。
The dielectric, optical and optic damage properties of KTP crystal are analyzed in this dissertation.
分析了KTP晶体的介电特性、光学特性和光损伤特性等主要性质。
This thesis on optical surface and surface damage detection of scanning method.
本论文对光学表面亚表层损伤检测的扫描方法进行了详细的研究。
An optical technique to quantify the creep crazing damage in stressed transparent glassy polymeric sheet of PMMA is presented.
采用光学显微技术对高聚物蠕变条件下的银纹损伤引发和演化进行了实验观测。
Directly looking at the optical interfaces or fibers may damage your eyes.
直视光接口或光纤,可能会损害您的眼睛。
Quartz fiber has a better optical conductivity and stronger toughness, that reduces probability of artificial damage.
石英光纤导光性更好,韧性更强减少人为损坏可能性;
With the fast development and wide application of laser technology. The laser induced damage to optical materials was more and more serious.
随着激光技术的飞速发展和应用,激光对光学材料的损伤日益严重。
In this paper, it is compared with optical wave communication and find its advantages which is large capacity, check without damage and transmission information to many receiver at one time.
通过对量子通信与常用的光波通信进行比较,得出可见量子通信具有明显的信息容量大的优势,而且可以进行无破坏检测并把信息同时传输给多个受信者。
The damage threshold of optics limits the output of KrF laser because the laser with shorter wavelength is easier to induce damage on the optical elements.
由于短波长激光更易造成光学元件的损伤,因此光学元件的损伤阈值限制了氟化氪激光器的能量输出。
The wavefront corrector is one of the key parts of an adaptive optical system. It is difficult to fabricate and is easy to damage if an improper voltage is applied.
波前校正器是自适应光学系统中的关键部件之一,制作困难,且在加电压不当时容易损坏。
But to date no materials have exhibited strong enough nonlinear response to protect sensitive optical elements from laser-induced damage. , we researched the Graded Density Limiter and Tandem limiter.
为解决现有非线性材料的非线性不能达到有效激光防护效果的问题,我们又研究了串列光限幅器件及浓度剃度光限幅器件的光限幅效率的影响因素。
Compared to inorganic materials, polymeric materials have larger electro-optical response, lower dielectric constant, and higher damage threshold, and are easier to be processed.
与无机材料相比,聚全物材料具有较大的电光响应、高的破坏阚值和低的介电常数,并且容易加工成形。
It is also an important kind of optical elements for high-power lasers. Its performances have effects on anti-damage of laser. Therefore, the research on laser induced K9 glass plasma is essential.
K9玻璃是常用的光学材料,也是高功率激光器重要的光学元件,其性能的好坏直接关系到光学材料和激光器的抗激光损伤能力。
It is shown that the initial damage time of optical coatings during a laser pulse is very short and the most part of the laser pulse generates larger damage.
研究发现薄膜发生初始破坏所需时间很短,脉冲的大部分时间是引起薄膜发生更大的破坏。
Thermal and mechanical breakage is the key factor of laser damage on optical and photoelectric elements.
热-力破坏效应是导致光电器件激光损伤的重要因素。
Optical methods of measuring surface roughness have many advantages such as non-contact, non-damage and high precision etc.
采用光学方法测量表面粗糙度具有非接触、无损伤、测量精度高等优点。
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