Enhanced Smith–Purcell radiation from bound states in the continuum of metallic gratings

Chen, Zhaofu; Mao, Leilei; Jin, Mengmeng; Shi, Xin; Bai, Ningfeng; Sun, Xiaohan

doi:10.1088/1361-6463/ac6a8b

Cited by 4 publications

(4 citation statements)

References 53 publications

(73 reference statements)

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“…Such phenomena can be explained by considering the effect of incident fields from electrons. For a 2D model, the current density of a single charge q moving with velocity v 0 can be given by J z (x, z, t) = qv 0 δ(x − g)δ(z − v 0 t) [45]. Using Fourier transform, we can obtain the current density in the frequency domain, i.e., J z (x, z, ω) = qδ(x − g)exp(−ik z0 z), with k z0 = ω/v 0 .…”

Section: Resultsmentioning

confidence: 99%

Free-electron terahertz radiation based on silicon gratings with in-plane waveguide emission

2022

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We present a method utilizing the coupling between a pre-bunched electron beam and a silicon subwavelength grating to generate coherent terahertz waves. The grating that is connected to two opposite-traveling in-plane waveguides functions as a resonator. An example operating around 2 THz shows that, when the velocity and repetition frequency of the electron bunches respectively match the phase velocity and resonant frequency of the Bragg resonance in the grating, the strong electron-wave coupling leads to coherent radiation through the waveguide. The repetition frequency of the electron bunches can be halved by using its second harmonic to match the resonant frequency. This study might offer a potential approach for on-chip terahertz sources.

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Section: Resultsmentioning

confidence: 99%

Free-electron terahertz radiation based on silicon gratings with in-plane waveguide emission

2022

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“…Other platforms supporting quasi-BICs, e.g. metal gratings [15,16], can also be applied as the electromagnetic structure. Additionally, recent advances in manipulating the characteristics of quasi-BICs can also be utilized here to tailor the beam-wave interaction (e.g.…”

Section: Discussionmentioning

confidence: 99%

“…1/2 are the reflection coefficient, z wavenumber and x wavenumber of the nth-order space harmonic, respectively [15,16]. Importantly, the absolute value of reflection coefficient, denoted by |r n |, is essentially the amplitude of the nth-order space harmonic at the grating surface.…”

Section: Principle Of the Interactionmentioning

confidence: 99%

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Improved Smith–Purcell free-electron laser based on quasi-bound states in the continuum

Chen¹,

Mao²,

Jin³

et al. 2022

J. Phys. D: Appl. Phys.

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In this article, a method to enable eﬃcient emission of coherent radiation by using an intense electron beam coupled with a quasi-bound state in the continuum (quasi-BIC) is investigated. We present an analytical solution providing an intuitive round-trip phase condition to explain the origin of quasi-BICs of dielectric gratings. Numerical study of the beam-wave interaction shows that the electrons can be bunched by the synchronous space harmonic enhanced by the quasi-BIC, resulting in self-excited coherent oscillation and consequently eﬃcient Smith-Purcell radiation. This work presents an interesting solution for coherent radiation sources, and may ﬁnd application in communications and physics.

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Rigorous coupled-wave analysis of unilateral Smith–Purcell radiation from asymmetric resonators

Chen,

Shao,

Mao

et al. 2024

Appl. Opt.

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The Smith–Purcell radiation produced by electrons moving closely to a grating can be enhanced by resonances. Here, we show a method to manipulate the directionality of the resonance-enhanced radiation. Using the rigorous coupled-wave analysis method, we compare the radiation from symmetric and asymmetric gratings, showing that the enhanced Smith–Purcell radiation can become unilateral with a perturbation that breaks the structural symmetry. Our work provides an effective method for frequency-domain calculation of Smith–Purcell radiation and also an approach to realize more efficient use of the radiation.

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Enhanced Smith–Purcell radiation from bound states in the continuum of metallic gratings

Cited by 4 publications

References 53 publications

Free-electron terahertz radiation based on silicon gratings with in-plane waveguide emission

Free-electron terahertz radiation based on silicon gratings with in-plane waveguide emission

Improved Smith–Purcell free-electron laser based on quasi-bound states in the continuum

Rigorous coupled-wave analysis of unilateral Smith–Purcell radiation from asymmetric resonators

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