Not known Details About Laser Crystal
Not known Details About Laser Crystal
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These tables include only the most typical host crystals; several Some others exist, which happen to be fewer regularly utilized.
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激光晶体是固态激光器的核心。它们是光放大发生的媒介,产生激光束。在这篇全面指南中,我们深入探讨激光晶体的世界。
Furthermore, some adaptability is missing in experiments if just one are unable to Check out absorbers with distinctive thickness or doping concentration, such as, with no exchanging the laser crystal alone.
Which geometry, dopant and doping focus from the gain medium are most advantageous depend upon quite a few variables. The available pump source (type of laser diode or lamp) as well as the envisaged pumping arrangement are crucial aspects, but the material by itself also has some influence. For instance, titanium–sapphire lasers have to be pumped click here with substantial intensities, for which the form of a transversely cooled rod, operated with fairly compact pump and laser beam diameter, is a lot more suitable than e.
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活性离子在激光晶体内发生的能量跃迁对激光操作至关重要。大多数激光操作都是通过四能级系统原理进行的,确保连续操作并防止浪费的非辐射衰变。
探索激光晶体的领域,可以让我们看到科学和技术相结合的奇迹,为我们带来了令人难以置信的进步。这些激光晶体,每一种都在组成和特性上独具匠心,是推动现代世界众多应用的动力。
激光晶体的效率在很大程度上依赖于某些属性,这些属性不仅限于其基本组成。这些特性决定了产生的激光光束的质量和随后的应用。
量子效率是发射光子数量与吸收光子数量的比率。高量子效率表明更大部分吸收能量被转化为激光光束,有助于提高激光的整体效率。
Individuals surfaces which might be passed via the laser beam are Ordinarily either oriented at Brewster's angle or have an anti-reflection coating.
主体材料中活性离子掺杂物的数量是关键因素。它影响了激光的效率和性能。过低的浓度可能导致低输出,过高的浓度可能导致消光效应,降低晶体的效率。
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There is an array of crystalline media, which may be grouped according to special atomic constituents and crystalline buildings. Some crucial teams of crystals are:
激光晶体(laser crystal),可将外界提供的能量通过光学谐振腔转化为在空间和时间上相干的具有高度平行性和单色性激光的晶体材料。是晶体激光器的工作物质。