发表论文

当前位置: 首页 > 学术成果 > 发表论文 > 正文

Non-volatile tunable optics by design: From chalcogenide phase-change materials to device structures

来源:    发布时间 : 2024-01-15   点击量:  
年份 专利号
授权公告日 发明人
期号、页码 68, 334-355 (2023) 期刊名称 Materials Today
文章作者 Danian Wang,Lin Zhao,Siyu Yu,Xueyang Shen,Jiangjing Wang,Chaoquan Hu,Wen Zhou,Wei Zhang


Integration of chalcogenide phase-change materials (PCMs) with planar multilayer structures, metasurfaces, waveguides and photonic integrated circuits has sparked extensive research in non-volatile tunable optical devices. The optical performances of these devices are determined not only by the light interference or localization using layered or patterned device structures, but also by the change in dielectric function of PCMs upon phase transition. In this review, we summarize latest progress on high-performance tunable optical PCM devices, which are promoted by the successful designs of both new materials and novel device structures. First, we present an in-depth understanding of the optical properties of PCMs at the atomic level and discuss how to tailor the optical properties via materials design. Then we discuss multiple emerging non-volatile optical applications utilizing the tunable transmission, color, absorption, emission and phase shift of PCM optical devices that are enabled by waveguide integration, multilayer deposition as well as metasurface patterning. Recent progress on microheater fabrication that enables electronic-photonic integration is also highlighted. Finally, we outline the opportunities that lie ahead for optical PCMs and non-volatile nanophotonics.


Link:Non-volatile tunable optics by design: From chalcogenide phase-change materials to device structures - ScienceDirect


关闭

微信公众号