Simple Design of Double-Layer Antireflection Coating for Er-Doped Glass Laser Application

Communications in Physics Pub Date : 2022-09-15 DOI:10.15625/0868-3166/17137
V. H. Mai, Chi Dung Duong, H. Le, L. Tran, A. Jaffré, Emmanuel Blanc, O. Schneegans
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Abstract

In an Erbium-doped glass laser resonator, parasitic light oscillations (yielding a lowering of the output laser beam power) may be avoided by deposition of well-adapted antireflection coatings on the edges of the active glass medium. However, towards laser application, efficient double-layers are scarce in literature. Here, we propose a simple design of double-layer (total thickness < 490nm) composed of thin films of MgF2 and Al2O3, materials that are easy to deposit by electron beam evaporation. Such coating design allows a calculated reflectance to be lower than 0.01% in the considered 1530-1570nm Near-Infrared range.
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用于掺铒玻璃激光器的双层增透涂层的简单设计
在掺铒玻璃激光谐振器中,寄生光振荡(产生输出激光束功率的降低)可以通过在活性玻璃介质的边缘沉积适应性良好的抗反射涂层来避免。然而,在激光应用方面,高效的双层材料文献很少。在这里,我们提出了一种由MgF2和Al2O3薄膜组成的双层(总厚度< 490nm)的简单设计,这种材料易于通过电子束蒸发沉积。这种涂层设计允许在1530-1570nm近红外范围内计算出的反射率低于0.01%。
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Communications in Physics
Communications in Physics
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