Finite-Element Method Simulations of the Tunable Magnetic Anapole State in an All-Graphene Metasurface: Implications for Near-Field Sensing, Nanoscale Optical Trapping, and Cloaking

Roy, Shuvajit; Debnath, Kapil

doi:10.1021/acsanm.2c05225

Cited by 7 publications

(1 citation statement)

References 42 publications

(69 reference statements)

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“…Based on these ndings, metasurface magnetic carbon lms show potential for designing and manipulating the magnetic properties of materials. Previous publications have demonstrated the ability of metasurfaces to modulate the properties of carbon lms, including surface plasmonic resonance [30][31] and magnetic resonance [32][33][34] . However, the tuneable magnetization of carbon lms by metasurfaces remains relatively unexplored.…”

Section: Introductionmentioning

confidence: 99%

Enhanced and Tuneable Ferromagnetism in CVD-Synthesized Metasurface Carbon Films

Chaiyachad

Kaeokhamchan

Moontang

et al. 2023

Preprint

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Here, metasurface magnetic carbon films synthesized via chemical vapour deposition (CVD) by using adamantane as a precursor and electron beam lithography (EBL) exhibited tuneable magnetic properties. The magnetic properties of carbon films were previously reported to occur from dangling bonds[1]. In this study, we observed a significant increase in saturation magnetization compared to the baseline film by controlling the array size of the metasurface film. Magnetic force microscopy (MFM) measurements confirmed the increasing saturation magnetization of the metasurface film. Magnetization originated from surface dangling bonds; smaller film sizes resulted in higher magnetization due to increased surface area. Furthermore, the saturation magnetization of the CVD carbon film could be tuned by controlling the humidity, and its prediction could be achieved through the utilization of the Raman technique. These findings highlight the potential of metasurface magnetic carbon films for developing tuneable magnetic microscale devices in areas, such as data storage, spintronics, and sensing.

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Section: Introductionmentioning

confidence: 99%

Enhanced and Tuneable Ferromagnetism in CVD-Synthesized Metasurface Carbon Films

Chaiyachad

Kaeokhamchan

Moontang

et al. 2023

Preprint

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Hybrid Anapole Induced Chirality in Metasurfaces

Hassanfiroozi,

Lu,

2024

Advanced Materials

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The interaction between light and matter, particularly chirality, plays a pivotal role in modern science and technology. Typically, metasurfaces achieve chiro‐optical effects by coupling electric and magnetic dipoles in specific orientations. In this work, the design and optimization of an asymmetric H‐shaped metasurface is explored to induce hybrid anapole (HA) for optical activity. When the symmetry of the metasurface structure is disrupted, the design can simultaneously excite first‐order and pseudo high‐order HA under illumination with a specific circular polarization, both occurring within the same spectral regime. This results in high reflection for one circular polarization and a significant reduction in reflection for the orthogonal polarization, thereby exhibiting exceptional chiro‐optical activity. Moreover, the HA‐based chiral metasurface demonstrates strong polarization control capabilities, as verified by Stokes parameter analysis, revealing high birefringence and a pronounced dependence on the incident polarization angle. These results provide valuable insights for the design and optimization of HA metasurfaces for advanced optical applications and polarization control, paving the way for new developments in chiral nanophotonics.

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Graphene-based electromechanically tunable subwavelength mid-IR perfect absorber

Roy,

Debnath

2023

Opt Quant Electron

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Finite-Element Method Simulations of the Tunable Magnetic Anapole State in an All-Graphene Metasurface: Implications for Near-Field Sensing, Nanoscale Optical Trapping, and Cloaking

Cited by 7 publications

References 42 publications

Enhanced and Tuneable Ferromagnetism in CVD-Synthesized Metasurface Carbon Films

Enhanced and Tuneable Ferromagnetism in CVD-Synthesized Metasurface Carbon Films

Hybrid Anapole Induced Chirality in Metasurfaces

Graphene-based electromechanically tunable subwavelength mid-IR perfect absorber

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