Joint Multi-Frequency Beam Shaping and Steering via Space–Time-Coding Digital Metasurfaces |
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Authors: | Giuseppe Castaldi Lei Zhang Massimo Moccia Alisa Y Hathaway Wen Xuan Tang Tie Jun Cui Vincenzo Galdi |
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Affiliation: | 1. Fields & Waves Lab, Department of Engineering, University of Sannio, Benevento, I-82100 Italy;2. State Key Laboratory of Millimeter Waves, Southeast University, Nanjing, 210096 China;3. Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, MA, 02142 USA |
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Abstract: | Digital programmable metasurfaces provide a very powerful and versatile platform for implementing spatio-temporal modulation schemes that are of great interest within the emerging framework of space–time metastructures. In particular, space–time-coding digital metasurfaces have been successfully applied to advanced wavefront-manipulations in both the spatial and spectral domains. However, conventional space–time-coding schemes do not allow the joint syntheses of the transmission/scattering angular responses at multiple frequencies, which are potentially useful in a variety of applications of practical interest. Here, a strategy is put forward to lift this limitation, thereby enabling joint multi-frequency beam shaping and steering, that is, the independent and simultaneous syntheses of prescribed scattering patterns at given harmonic frequencies. The proposed approach relies on a more sophisticated space–time coding, with suitably designed, and temporally intertwined coding sub-sequences, which effectively disentangles the joint multi-frequency syntheses. The power and versatility of the approach are illustrated via a series of representative application examples, including multi-beam, diffuse-scattering, and orbital-angular-momentum patterns. Theoretical predictions are experimentally validated by means of microwave measurements. The outcomes of this study hold promising potentials for applications to future imaging, information, and mobile-communication systems. |
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Keywords: | beam shapings codings digitals joint multi-frequency syntheses metasurfaces |
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