5 Simple Techniques For Laser Crystal

5 Simple Techniques For Laser Crystal

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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。

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激光晶体由发光中心和基质晶体两部分组成。大部分激光晶体的发光中心由激活离子构成，激活离子部分取代基质晶体中的阳离子形成掺杂型激光晶体。激活离子成为基质晶体组分的一部分时，则构成自激活激光晶体。

Naturally, it is vitally fascinating that a specified crystal top quality is developed continuously, While various laser models can have a unique sensitivity to materials parameters.

亚稳态寿命也起着重要作用。较长的寿命允许更多的储能和实现粒子数反转的更高潜力，这对激光动作至关重要。

A couple of laser crystal supplies are already shown where some saturable absorber substance is incorporated for passive Q switching of a laser.

热膨胀和收缩系数对确定激光晶体的热透镜特性至关重要。最小化热透镜效应对于在广泛的操作温度范围内保持光束质量至关重要。

These surfaces which happen to be passed from the laser beam are Commonly both 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。

In 2017, we formulated the globe’s major Ti∶sapphire crystal (Φ235 mm), which supported The ten PW laser output of Shanghai Superintense Ultrafast Laser Facility. The development of Yb and Tm check here doped GdScO3 laser crystals with particularly broad emission spectra drives the event of laser diode pumped ultrafast good-state lasers. With the increase in pulse Strength, peak electric power, and repetition amount of reliable-point out lasers, laser crystals will acquire in direction of greater sizes, higher crystal top quality, and controllable important overall performance.

There exists a variety of crystalline media, which may be grouped according to special atomic constituents and crystalline buildings. Some critical groups 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。