Biomedical material ablation by flexible-hollow-fiber-delivered double pulses

CLEO/Europe. 2005 Conference on Lasers and Electro-Optics Europe, 2005. Pub Date : 2005-06-17 DOI:10.1109/CLEOE.2005.1568408

S. Takeda, Y. Hagiwara, M. Obara

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引用次数: 3

Abstract

In this study, we demonstrate a high quality beam delivery using a flexible small-core hollow fiber and the ablation processing of hydroxyapatite (HAp) and collagen with fs double pulses through a bending hollow fiber. HAp is a main component of bones and teeth. We adopted two new methods: One is the use of a hollow fiber with a 320-mum core diameter in order to improve the output beam intensity profile by eliminating the high order modes. The other one is an fs double pulse laser transmission scheme with a tailored ps-order delay time, which is earlier than the ablation onset. Since the optical damage threshold of the hollow fiber depends on the peak intensity of the incident laser pulse, therefore, the double pulse transmission enabled us to deliver higher pulse energies than the single pulse even by keeping the fs laser ablation characteristics. By adopting these two new methods of flexible hollow fiber, double pulse transmission and ablation processing, we delivered high energy enough to ablate HAp and collagen. We demonstrated the delivery of a near Gaussian output beam profile, and high ablation rates

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柔性中空纤维传送双脉冲消融生物医学材料

在这项研究中，我们展示了使用柔性小芯中空纤维的高质量光束传输，以及通过弯曲中空纤维用fs双脉冲对羟基磷灰石(HAp)和胶原蛋白进行消融处理。羟基磷灰石是骨骼和牙齿的主要成分。我们采用了两种新方法:一种是使用芯径为320 μ m的中空光纤，通过消除高阶模来改善输出光束的强度分布。另一种是fs双脉冲激光传输方案，该方案具有定制的ps级延迟时间，该延迟时间早于烧蚀开始。由于空心光纤的光损伤阈值取决于入射激光脉冲的峰值强度，因此，在保持激光烧蚀特性的情况下，双脉冲传输使我们能够提供比单脉冲更高的脉冲能量。通过采用柔性中空纤维双脉冲传输和消融处理两种新方法，我们提供了足以消融HAp和胶原蛋白的高能量。我们演示了近高斯输出光束轮廓的传输，以及高烧蚀率

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来源期刊

CLEO/Europe. 2005 Conference on Lasers and Electro-Optics Europe, 2005.

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