摘要
Orbital angular momentum(OAM)conversion is critical in understanding interactions between a structural sound field and a planar lattice.Herein,we explore the evolution of a monochromatic acoustic vortex beam(AVB)that is scattered by a phononic crystal(PnC)or a correlated random lattice.The phenomenon is ascribed to the enhanced orbit–orbit angular momentum coupling induced by the band structure.By modifying the coupling condition,accurate and continuous micromanipulation of AVBs can be achieved,including the transverse/lateral gravity shift,the dynamics of the phase singularities,and the spatial distribution of acoustic pressure,etc.This research provides insight to the inhomogeneous coupling of AVBs with both propagating Bloch waves and localized Anderson modes,and may facilitate development of novel OAM-based acoustic devices for active sound field manipulation.
作者
Qingbang Han
Zhipeng Liu
Cheng Yin
Simeng Wu
Yinlong Luo
Zixin Yang
Xiuyang Pang
Yiqiu Wang
Xuefen Kan
Yuqiu Zhang
Qiang Yu
Jian Wu
韩庆邦;刘志鹏;殷澄;吴思梦;罗寅龙;杨子鑫;庞修洋;王溢秋;阚雪芬;张雨秋;俞强;吴坚(College of Information Science and Engineering,Hohai University,Changzhou 213200,China;College of Advanced Interdisciplinary Studies,Nanhu Laser Laboratory,National University ofDefense Technology,Changsha 410073,China;School of Transportation Engineering,Jiangsu Shipping College,Nantong 226010,China;i-Lab,Suzhou Institute of Nano-Tech and Nano-Bionics,Chinese Academy of Sciences,Suzhou215123,China)
基金
the National Natural Sciencefoundation of China (Grant No. 12174085)
the FundamentalResearch Funds for the Central Universities (GrantNo. B220202018)
the Basic Science (Natural Science) ResearchProject for the Universities of Jiangsu Province (GrantNo. 23KJD140002)
Natural Science Foundation of Nantong(Grant No. JC2023081).
