Domain growth driven by a femtosecond laser inlithium niobate crystal
摘要
We experimentally demonstrate to drive domain growth in lithium niobate crystal by using a focused infrared femtosecond laser without relative displacement or any additional treatment. The physical process has four stages: modified domain generation; thermoelectric field formation; domain inversion; and domain growth. The length of domain growth depends on drive energy (pulse energy) and drive time (number of pulses), up to 155 µm. We use this approach to rapidly fabricate two-dimensional period-inverted domain structures and perform frequency-doubling conversion based on quasi-phase-matching. Laser-driven domain growth delivers an efficient manufacturing route for tailored functional materials.
类型
出版物
Optics Letters
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教授
教授、博导,泰山学者青年专家、崂山学者、学科带头人及武汉大学兼职教授。先后任职于北京理工大学、南洋理工大学、武汉大学及青岛科技大学。他长期致力于超快激光与物质相互作用研究,提出基于共振吸收的飞秒激光高效选择性加工新方法,成功应用于光子晶体加工、油水分离器制造等领域,展现出极高的工业加工能力;同时,成功验证了飞秒激光海水制氢假设,为万亿美元级的大规模制氢工程化奠定了实验基础。其科研成果丰硕,在Nanoscale、APL等主流SCI期刊发表论文40余篇,总被引超1100次;获国家发明专利18项(多项正推进转化)。主持国自然面上项目、先导科技专项子课题等16项,并作为骨干参与多项国家重大科研计划。
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