Multifaceted anapole: from physics to applications [Invited]

Reza Masoudian Saadabad; Lujun Huang; ANDREY B. EVLYUKHIN; ANDREY E. MIROSHNICHENKO

doi:10.1364/OME.456070

Multifaceted anapole: from physics to applications [Invited]

Reza Masoudian Saadabad
, Lujun Huang
, ANDREY B. EVLYUKHIN
, ANDREY E. MIROSHNICHENKO

Research output: Contribution to journal › Review article › peer-review

31 Scopus citations

Abstract

The optical anapole state resulting from interference of the electric and toroidal moments is of much interest due to its nonradiating nature. Interference of optical modes supported by a diverse range of Mie-resonant structures has found many applications, such as in biosensors and optical communication. This review provides an overview of the recent progress of anapole states in photonics. After a brief historical background, a complete mathematical description is presented. It allows one to clearly demonstrate and identify the existence of anapole states and highlight their fundamental properties. Then, we focus on the excitation of anapoles in photonics and discuss the relation to other states, such as bound states in the continuum. Finally, we discuss a series of advances that uncover the anapole potential in various applications, from nonlinear photonics and lasing to optical communication and sensing.

Original language	English
Pages (from-to)	1817-1837
Number of pages	21
Journal	Optical Materials Express
Volume	12
Issue number	5
DOIs	https://doi.org/10.1364/OME.456070
State	Published - 1 May 2022
Externally published	Yes

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title = "Multifaceted anapole: from physics to applications [Invited]",

abstract = "The optical anapole state resulting from interference of the electric and toroidal moments is of much interest due to its nonradiating nature. Interference of optical modes supported by a diverse range of Mie-resonant structures has found many applications, such as in biosensors and optical communication. This review provides an overview of the recent progress of anapole states in photonics. After a brief historical background, a complete mathematical description is presented. It allows one to clearly demonstrate and identify the existence of anapole states and highlight their fundamental properties. Then, we focus on the excitation of anapoles in photonics and discuss the relation to other states, such as bound states in the continuum. Finally, we discuss a series of advances that uncover the anapole potential in various applications, from nonlinear photonics and lasing to optical communication and sensing.",

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AU - MIROSHNICHENKO, ANDREY E.

PY - 2022/5/1

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AB - The optical anapole state resulting from interference of the electric and toroidal moments is of much interest due to its nonradiating nature. Interference of optical modes supported by a diverse range of Mie-resonant structures has found many applications, such as in biosensors and optical communication. This review provides an overview of the recent progress of anapole states in photonics. After a brief historical background, a complete mathematical description is presented. It allows one to clearly demonstrate and identify the existence of anapole states and highlight their fundamental properties. Then, we focus on the excitation of anapoles in photonics and discuss the relation to other states, such as bound states in the continuum. Finally, we discuss a series of advances that uncover the anapole potential in various applications, from nonlinear photonics and lasing to optical communication and sensing.

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Multifaceted anapole: from physics to applications [Invited]

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