Progress in Preforming Whispering Gallery Mode Resonant Disks via Femtosecond Laser Machining

P. Lacourt, F. Courvoisier, J. Safioui, L. Furfaro, L. Larger
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Abstract

Whispering gallery mode resonators (WGMR) have received extensive interest recently, as they provide a promising range of compact and versatile components [1]. Among the available substrates, fluoride crystals have attracted particular attention as they combine good optical and mechanical properties together with excellent linear and non-linear behavior [2]. However, crystalline disks with diameters in the millimeter range have so far been realized through mechanical grinding and polishing, which presents strong drawbacks. In this submission we report on the femtosecond laser cutting and shaping of 12 mm-diameter CaF2 resonant disks. The finalized components featured an intrinsic Q-factor of 9.1 108 with significantly reduced processing times as compared to prior methods.
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飞秒激光加工低语廊模谐振盘的研究进展
低语通道模式谐振器(WGMR)最近受到了广泛的关注,因为它们提供了一系列有前途的紧凑和多功能组件。在现有的衬底中,氟化物晶体因其具有良好的光学和力学性能以及优异的线性和非线性行为而受到特别关注。然而,迄今为止,直径在毫米范围内的晶盘都是通过机械研磨和抛光来实现的,存在很强的缺陷。在这篇论文中,我们报道了飞秒激光切割和成型12毫米直径的CaF2谐振盘。与之前的方法相比,最终确定的组分具有9.1 108的内在q因子,显著减少了处理时间。
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