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。
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。
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。
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。
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 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。
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。
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。
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