Active Multifunctional Microelectromechanical System Metadevices: Applications in Polarization Control, Wavefront Deflection, and Holograms
Metasurfaces have provided a novel route to control the local phase of electromagnetic radiation through subwavelength scatterers where the properties of each element remain passive. A passive metasurface design can only achieve a specific functionality as it is extremely challenging to reconfigure...
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2017
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sg-ntu-dr.10356-863112020-03-07T12:31:29Z Active Multifunctional Microelectromechanical System Metadevices: Applications in Polarization Control, Wavefront Deflection, and Holograms Cong, Longqing Pitchappa, Prakash Wu, Yang Ke, Lin Lee, Chengkuo Singh, Navab Yang, Hyunsoo Singh, Ranjan School of Physical and Mathematical Sciences Center for Disruptive Photonic Technologies Wavefront Deflection Polarization Metasurfaces have provided a novel route to control the local phase of electromagnetic radiation through subwavelength scatterers where the properties of each element remain passive. A passive metasurface design can only achieve a specific functionality as it is extremely challenging to reconfigure each element that contributes toward the control of the radiation. In this work, the authors propose a different scheme based on microelectromechanical system (MEMS) to reconfigure the resonance and radiation phase via control of each dipolar element. The suspension angle of the individual bimorph cantilever in air can be precisely controlled through electrostatic actuation that determines the operative phase diagram of the metadevice. The dynamic polarization conversion is demonstrated through global control. In addition, it is proposed that a multifunctional operation such as dynamic wavefront deflection and rewritable holographic display can be accomplished by using 1D and 2D control of the cantilever array when each cantilever in the MEMS metadevice array is uniformly and accurately controlled in the large-area samples. Such a rewritable proposition can enable myriad of applications of MEMS-based metadevices in polarization-division multiplexing and dynamic flat lenses. MOE (Min. of Education, S’pore) 2017-11-08T03:06:28Z 2019-12-06T16:20:10Z 2017-11-08T03:06:28Z 2019-12-06T16:20:10Z 2016 Journal Article Cong, L., Pitchappa, P., Wu, Y., Ke, L., Lee, C., Singh, N., et al. (2017). Active Multifunctional Microelectromechanical System Metadevices: Applications in Polarization Control, Wavefront Deflection, and Holograms. Advanced Optical Materials, 5(2), 1600716-. 2195-1071 https://hdl.handle.net/10356/86311 http://hdl.handle.net/10220/44003 10.1002/adom.201600716 en Advanced Optical Materials © 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. |
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Wavefront Deflection Polarization |
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Wavefront Deflection Polarization Cong, Longqing Pitchappa, Prakash Wu, Yang Ke, Lin Lee, Chengkuo Singh, Navab Yang, Hyunsoo Singh, Ranjan Active Multifunctional Microelectromechanical System Metadevices: Applications in Polarization Control, Wavefront Deflection, and Holograms |
| description |
Metasurfaces have provided a novel route to control the local phase of electromagnetic radiation through subwavelength scatterers where the properties of each element remain passive. A passive metasurface design can only achieve a specific functionality as it is extremely challenging to reconfigure each element that contributes toward the control of the radiation. In this work, the authors propose a different scheme based on microelectromechanical system (MEMS) to reconfigure the resonance and radiation phase via control of each dipolar element. The suspension angle of the individual bimorph cantilever in air can be precisely controlled through electrostatic actuation that determines the operative phase diagram of the metadevice. The dynamic polarization conversion is demonstrated through global control. In addition, it is proposed that a multifunctional operation such as dynamic wavefront deflection and rewritable holographic display can be accomplished by using 1D and 2D control of the cantilever array when each cantilever in the MEMS metadevice array is uniformly and accurately controlled in the large-area samples. Such a rewritable proposition can enable myriad of applications of MEMS-based metadevices in polarization-division multiplexing and dynamic flat lenses. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Cong, Longqing Pitchappa, Prakash Wu, Yang Ke, Lin Lee, Chengkuo Singh, Navab Yang, Hyunsoo Singh, Ranjan |
| format |
Article |
| author |
Cong, Longqing Pitchappa, Prakash Wu, Yang Ke, Lin Lee, Chengkuo Singh, Navab Yang, Hyunsoo Singh, Ranjan |
| author_sort |
Cong, Longqing |
| title |
Active Multifunctional Microelectromechanical System Metadevices: Applications in Polarization Control, Wavefront Deflection, and Holograms |
| title_short |
Active Multifunctional Microelectromechanical System Metadevices: Applications in Polarization Control, Wavefront Deflection, and Holograms |
| title_full |
Active Multifunctional Microelectromechanical System Metadevices: Applications in Polarization Control, Wavefront Deflection, and Holograms |
| title_fullStr |
Active Multifunctional Microelectromechanical System Metadevices: Applications in Polarization Control, Wavefront Deflection, and Holograms |
| title_full_unstemmed |
Active Multifunctional Microelectromechanical System Metadevices: Applications in Polarization Control, Wavefront Deflection, and Holograms |
| title_sort |
active multifunctional microelectromechanical system metadevices: applications in polarization control, wavefront deflection, and holograms |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/86311 http://hdl.handle.net/10220/44003 |
| _version_ |
1681035118349647872 |