期刊
ADVANCED PHOTONICS
卷 3, 期 1, 页码 -出版社
SPIE-SOC PHOTO-OPTICAL INSTRUMENTATION ENGINEERS
DOI: 10.1117/1.AP.3.1.016001
关键词
chromatic aberration-free meta-devices; ultrabroadband metasurface; phase and dispersion control; multiresonant Lorentz model
类别
资金
- National Natural Science Foundation of China [61871394, 61901512, 11604167, 61625502, 11961141010, 61975176, 62071423]
- Postdoctoral Innovation Talents Support Program of China [BX20190293]
- Natural Science Foundation of Shaanxi Province [2019JQ-013]
This study introduces a general strategy to design chromatic aberration-free meta-devices with high efficiency and ultrabroadband properties by satisfying key criteria of desirable phase dispersion and high reflection amplitudes. Two microwave meta-devices, an achromatic meta-mirror and an abnormal chromatic meta-mirror, are designed, fabricated, and experimentally characterized, both exhibiting very high efficiencies in the frequency band.
Chromatic aberration-free meta-devices (e.g., achromatic meta-devices and abnormal chromatic meta-devices) play an essential role in modern science and technology. However, current efforts suffer the issues of low efficiency, narrow operating band, and limited wavefront manipulation capability. We propose a general strategy to design chromatic aberration-free meta-devices with high-efficiency and ultrabroadband properties, which is realized by satisfying the key criteria of desirable phase dispersion and high reflection amplitudes at the target frequency interval. The phase dispersion is tuned successfully based on a multiresonant Lorentz model, and high reflection is guaranteed by the presence of the metallic ground. As proof of the concept, two microwave meta-devices are designed, fabricated, and experimentally characterized. An achromatic meta-mirror is proposed within 8 to 12 GHz, and another abnormal chromatic meta-mirror can tune the reflection angle as a linear function. Both meta-mirrors exhibit very high efficiencies (85% to 94% in the frequency band). Our findings open a door to realize chromatic aberration-free meta-devices with high efficiency and wideband properties and stimulate the realizations of chromatic aberration-free metadevices with other functionalities or working at higher frequency.
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