铌酸锂集成光路:孕育自主产业链的前沿基础研究
Photonic integrated circuits on lithium niobate: today′s fundamental research for tomorrow′s industry
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摘要: 大数据、人工智能、光量子信息等变革性领域对信息处理能力提出了前所未有的要求,而集成光路技术有望实现更快速、更有效、成本更低廉的信息处理器件,由此带来新的自主产业机会。铌酸锂集成光路技术在近年获得迅猛发展,展示了优越的器件性能,已经吸引了产业界的关注。文章将介绍该领域的研究背景以及若干近期的重要突破。Abstract: The emerging applications enabled by disruptive technologies such as big data, artificial intelligence, and quantum information require unprecedented information processing capacities. Photonic integrated circuit (PIC) technology provides promising potential for realizing information processing devices and/or systems with higher speed, higher efficiency, and lower cost. In particular, the rapid development of PIC platforms based on lithium niobate on insulator (LNOI), a photonic material compatible with lithographic fabrication techniques, has significantly promoted device performance. Here we will introduce the latest breakthroughs in this area. Based on the technological advances, an industry chain built upon LNOI is beginning to take shape.
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期刊类型引用(5)
1. 郑远林,陈险峰. 薄膜铌酸锂集成非线性光学:走向全光信息时代的新路径. 物理. 2024(01): 22-32 . 本站查看 2. 卢金龙,郝婷,李志浩,周赤,吉贵军,王兴龙. 薄膜铌酸锂片上倒装激光芯片的结构设计与优化. 光学学报. 2023(23): 310-317 . 百度学术 3. 刘宏,桑元华,孙德辉,王东周,王继扬. 信息时代的铌酸锂晶体:进展与展望. 人工晶体学报. 2021(04): 708-715 . 百度学术 4. 高博锋,任梦昕,郑大怀,兀伟,蔡卫,孙军,孔勇发,许京军. 铌酸锂的耄耋之路:历史与若干进展. 人工晶体学报. 2021(07): 1183-1199 . 百度学术 5. 肖靖,常双聚,赵莉,朱亚彬,陈云琳. 高掺锌/镁铌酸锂薄膜的光电性质. 人工晶体学报. 2021(09): 1648-1654 . 百度学术 其他类型引用(3)
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