Journal
ADVANCED OPTICAL MATERIALS
Volume 3, Issue 10, Pages 1405-1410Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adom.201500156
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Funding
- National Science Foundation of China [60990320, 61138001, 61171026, 60990324]
- National High Tech (863) Projects [2011AA010202, 2012AA030402]
- 111 Project [111-2-05]
- Natural Science Foundation of the Jiangsu Province Guangxi Experiment Center of Information Science, Guilin University of Electronic Technology [BK2012019, 20130202]
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Recently, reflectionless or low-reflection surfaces made of subwavelength structures have been of broad interest in practical engineering. Here, a single-layer terahertz metasurface is proposed to produce ultralow reflections across a broad-frequency spectrum and wide incidence angles by controlling the reflection phases of subwavelength structures. To enable full control of the phase range in a continuous band, a combination of two different subwavelength elements are employed, both of which exhibit weak interactions with the incident terahertz waves, thereby showing high local reflectivities near the operating frequency. An optimization method is utilized to determine the array pattern with the minimum overall reflections under the illumination of plane waves. Both numerical simulations and experimental results demonstrate ultralow reflections of terahertz waves by the metasurface over a broad frequency band and wide incidence angles. By using the proposed metasurface, the far-field scattering patterns of metallic objects can be efficiently controlled, which opens up a new route for low-reflection surface designs in the terahertz spectrum.
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