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Multifunctional Metasurfaces [electronic resource] : Design Principles and Device Realizations / by He-Xiu Xu, Shiwei Tang, Tong Cai, Shulin Sun, Qiong He, Lei Zhou.

By: Xu, He-Xiu [author.].
Contributor(s): Tang, Shiwei [author.] | Cai, Tong [author.] | Sun, Shulin [author.] | He, Qiong [author.] | Zhou, Lei [author.] | SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Synthesis Lectures on Materials and Optics: Publisher: Cham : Springer International Publishing : Imprint: Springer, 2021Edition: 1st ed. 2021.Description: VII, 181 p. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783031023903.Subject(s): Lasers | Materials science | Laser | Materials ScienceAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 621,366 Online resources: Click here to access online
Contents:
Introduction -- Early Attempts on Multifunctional Metasurfaces: The "Merging" Concept -- Multifunctional Metasurfaces/Metadevices Based on Single-Structure Meta-Atoms I: Linear-Polarization Excitations -- Multifunctional Metasurfaces/Metadevices Based on Single-Structure Meta-Atoms II: Circular-Polarization Excitations -- Linearly Polarized Active Multifunctional Metasurfaces -- Circularly Polarized Active Multifunctional Metasurfaces -- Conclusions and Perspectives -- References -- Authors' Biographies .
In: Springer Nature eBookSummary: In recent years, we have witnessed a rapid expansion of using super-thin metasurfaces to manipulate light or electromagnetic wave in a subwavelength scale. However, most designs are confined to a passive scheme and monofunctional operation, which hinders considerably the promising applications of the metasurfaces. Specifically, the tunable and multifunctional metasurfaces enable to facilitate switchable functionalities and multiple functionalities which are extremely essential and useful for integrated optics and microwaves, well alleviating aforementioned issues. In this book, we introduce our efforts in exploring the physics principles, design approaches, and numerical and experimental demonstrations on the fascinating functionalities realized. We start by introducing in Chapter 2 the "merging" scheme in constructing multi-functional metadevices, paying particular attention to its shortcomings issues. Having understood the merits and disadvantages of the "merging" scheme, we then introduce in Chapter 3 another approach to realize bifunctional metadevices under linearly polarized excitations, working in both reflection and transmission geometries or even in the full space. As a step further, we summarizes our efforts in Chapter 4 on making multifunctional devices under circularly polarized excitations, again including designing principles and devices fabrications/characterizations. Starting from Chapter 5, we turn to introduce our efforts on using the "active" scheme to construct multifunctional metadevices under linearly polarized wave operation. Chapter 6 further concentrates on how to employ the tunable strategy to achieve helicity/frequency controls of the circularly polarized waves in reflection geometry. We finally conclude this book in Chapter 7 by presenting our perspectives on future directions of metasurfaces and metadevices.
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Introduction -- Early Attempts on Multifunctional Metasurfaces: The "Merging" Concept -- Multifunctional Metasurfaces/Metadevices Based on Single-Structure Meta-Atoms I: Linear-Polarization Excitations -- Multifunctional Metasurfaces/Metadevices Based on Single-Structure Meta-Atoms II: Circular-Polarization Excitations -- Linearly Polarized Active Multifunctional Metasurfaces -- Circularly Polarized Active Multifunctional Metasurfaces -- Conclusions and Perspectives -- References -- Authors' Biographies .

In recent years, we have witnessed a rapid expansion of using super-thin metasurfaces to manipulate light or electromagnetic wave in a subwavelength scale. However, most designs are confined to a passive scheme and monofunctional operation, which hinders considerably the promising applications of the metasurfaces. Specifically, the tunable and multifunctional metasurfaces enable to facilitate switchable functionalities and multiple functionalities which are extremely essential and useful for integrated optics and microwaves, well alleviating aforementioned issues. In this book, we introduce our efforts in exploring the physics principles, design approaches, and numerical and experimental demonstrations on the fascinating functionalities realized. We start by introducing in Chapter 2 the "merging" scheme in constructing multi-functional metadevices, paying particular attention to its shortcomings issues. Having understood the merits and disadvantages of the "merging" scheme, we then introduce in Chapter 3 another approach to realize bifunctional metadevices under linearly polarized excitations, working in both reflection and transmission geometries or even in the full space. As a step further, we summarizes our efforts in Chapter 4 on making multifunctional devices under circularly polarized excitations, again including designing principles and devices fabrications/characterizations. Starting from Chapter 5, we turn to introduce our efforts on using the "active" scheme to construct multifunctional metadevices under linearly polarized wave operation. Chapter 6 further concentrates on how to employ the tunable strategy to achieve helicity/frequency controls of the circularly polarized waves in reflection geometry. We finally conclude this book in Chapter 7 by presenting our perspectives on future directions of metasurfaces and metadevices.

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