Terahertz magnetic response of plasmonic metasurface resonators: origin and orientation dependence
The increasing miniaturization of everyday devices necessitates advancements in surface-sensitive techniques to access phenomena more effectively. Magnetic resonance methods, such as nuclear or electron paramagnetic resonance, play a crucial role due to their unique analytical capabilities. Recently...
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Published in | Scientific reports Vol. 14; no. 1; pp. 15305 - 12 |
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Main Authors | , , , , , |
Format | Journal Article |
Language | English |
Published |
England
Nature Publishing Group
03.07.2024
Nature Publishing Group UK Nature Portfolio |
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Abstract | The increasing miniaturization of everyday devices necessitates advancements in surface-sensitive techniques to access phenomena more effectively. Magnetic resonance methods, such as nuclear or electron paramagnetic resonance, play a crucial role due to their unique analytical capabilities. Recently, the development of a novel plasmonic metasurface resonator aimed at boosting the THz electron magnetic response in 2D materials resulted in a significant magnetic field enhancement, confirmed by both numerical simulations and experimental data. Yet, the mechanisms driving this resonance were not explored in detail. In this study, we elucidate these mechanisms using two semi-analytical models: one addressing the resonant behaviour and the other examining the orientation-dependent response, considering the anisotropy of the antennas and experimental framework. Our findings contribute to advancing magnetic spectroscopic techniques, broadening their applicability to 2D systems. |
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AbstractList | The increasing miniaturization of everyday devices necessitates advancements in surface-sensitive techniques to access phenomena more effectively. Magnetic resonance methods, such as nuclear or electron paramagnetic resonance, play a crucial role due to their unique analytical capabilities. Recently, the development of a novel plasmonic metasurface resonator aimed at boosting the THz electron magnetic response in 2D materials resulted in a significant magnetic field enhancement, confirmed by both numerical simulations and experimental data. Yet, the mechanisms driving this resonance were not explored in detail. In this study, we elucidate these mechanisms using two semi-analytical models: one addressing the resonant behaviour and the other examining the orientation-dependent response, considering the anisotropy of the antennas and experimental framework. Our findings contribute to advancing magnetic spectroscopic techniques, broadening their applicability to 2D systems. The increasing miniaturization of everyday devices necessitates advancements in surface-sensitive techniques to access phenomena more effectively. Magnetic resonance methods, such as nuclear or electron paramagnetic resonance, play a crucial role due to their unique analytical capabilities. Recently, the development of a novel plasmonic metasurface resonator aimed at boosting the THz electron magnetic response in 2D materials resulted in a significant magnetic field enhancement, confirmed by both numerical simulations and experimental data. Yet, the mechanisms driving this resonance were not explored in detail. In this study, we elucidate these mechanisms using two semi-analytical models: one addressing the resonant behaviour and the other examining the orientation-dependent response, considering the anisotropy of the antennas and experimental framework. Our findings contribute to advancing magnetic spectroscopic techniques, broadening their applicability to 2D systems.The increasing miniaturization of everyday devices necessitates advancements in surface-sensitive techniques to access phenomena more effectively. Magnetic resonance methods, such as nuclear or electron paramagnetic resonance, play a crucial role due to their unique analytical capabilities. Recently, the development of a novel plasmonic metasurface resonator aimed at boosting the THz electron magnetic response in 2D materials resulted in a significant magnetic field enhancement, confirmed by both numerical simulations and experimental data. Yet, the mechanisms driving this resonance were not explored in detail. In this study, we elucidate these mechanisms using two semi-analytical models: one addressing the resonant behaviour and the other examining the orientation-dependent response, considering the anisotropy of the antennas and experimental framework. Our findings contribute to advancing magnetic spectroscopic techniques, broadening their applicability to 2D systems. Abstract The increasing miniaturization of everyday devices necessitates advancements in surface-sensitive techniques to access phenomena more effectively. Magnetic resonance methods, such as nuclear or electron paramagnetic resonance, play a crucial role due to their unique analytical capabilities. Recently, the development of a novel plasmonic metasurface resonator aimed at boosting the THz electron magnetic response in 2D materials resulted in a significant magnetic field enhancement, confirmed by both numerical simulations and experimental data. Yet, the mechanisms driving this resonance were not explored in detail. In this study, we elucidate these mechanisms using two semi-analytical models: one addressing the resonant behaviour and the other examining the orientation-dependent response, considering the anisotropy of the antennas and experimental framework. Our findings contribute to advancing magnetic spectroscopic techniques, broadening their applicability to 2D systems. The increasing miniaturization of everyday devices necessitates advancements in surface-sensitive techniques to access phenomena more effectively. Magnetic resonance methods, such as nuclear or electron paramagnetic resonance, play a crucial role due to their unique analytical capabilities. Recently, the development of a novel plasmonic metasurface resonator aimed at boosting the THz electron magnetic response in 2D materials resulted in a significant magnetic field enhancement, confirmed by both numerical simulations and experimental data. Yet, the mechanisms driving this resonance were not explored in detail. In this study, we elucidate these mechanisms using two semi-analytical models: one addressing the resonant behaviour and the other examining the orientation-dependent response, considering the anisotropy of the antennas and experimental framework. Our findings contribute to advancing magnetic spectroscopic techniques, broadening their applicability to 2D systems. |
ArticleNumber | 15305 |
Author | Tesi, Lorenzo van Slageren, Joris Bloos, Dominik Hentschel, Mario Šikola, Tomáš Hrtoň, Martin |
Author_xml | – sequence: 1 givenname: Lorenzo surname: Tesi fullname: Tesi, Lorenzo email: lorenzo.tesi@ipc.uni-stuttgart.de organization: Institute of Physical Chemistry, University of Stuttgart, Pfaffenwaldring 55, 70569, Stuttgart, Germany. lorenzo.tesi@ipc.uni-stuttgart.de – sequence: 2 givenname: Martin surname: Hrtoň fullname: Hrtoň, Martin organization: Institute of Physical Engineering and Central European Institute of Technology, Brno University of Technology, Technická 2, 61669, Brno, Czech Republic – sequence: 3 givenname: Dominik surname: Bloos fullname: Bloos, Dominik organization: Institute of Physical Chemistry, University of Stuttgart, Pfaffenwaldring 55, 70569, Stuttgart, Germany – sequence: 4 givenname: Mario surname: Hentschel fullname: Hentschel, Mario organization: 4th Physics Institute and Research Center SCoPE, University of Stuttgart, Pfaffenwaldring 57, 70569, Stuttgart, Germany – sequence: 5 givenname: Tomáš surname: Šikola fullname: Šikola, Tomáš organization: Institute of Physical Engineering and Central European Institute of Technology, Brno University of Technology, Technická 2, 61669, Brno, Czech Republic – sequence: 6 givenname: Joris surname: van Slageren fullname: van Slageren, Joris email: slageren@ipc.uni-stuttgart.de, slageren@ipc.uni-stuttgart.de organization: Center for Integrated Quantum Science and Technology, University of Stuttgart, Stuttgart, Germany. slageren@ipc.uni-stuttgart.de |
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Keywords | Cavity-enhanced Magnetic metasurface Electron paramagnetic resonance Fabry-Pérot Terahertz |
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Snippet | The increasing miniaturization of everyday devices necessitates advancements in surface-sensitive techniques to access phenomena more effectively. Magnetic... Abstract The increasing miniaturization of everyday devices necessitates advancements in surface-sensitive techniques to access phenomena more effectively.... |
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StartPage | 15305 |
SubjectTerms | Anisotropy Antennas Cavity-enhanced Electric fields Electron paramagnetic resonance Electron spin resonance Electrons Fabry-Pérot Gold Magnetic fields Magnetic metasurface Radiation Simulation Terahertz |
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Title | Terahertz magnetic response of plasmonic metasurface resonators: origin and orientation dependence |
URI | https://www.ncbi.nlm.nih.gov/pubmed/38961198 https://www.proquest.com/docview/3075505212/abstract/ https://www.proquest.com/docview/3075701564/abstract/ https://pubmed.ncbi.nlm.nih.gov/PMC11222506 https://doaj.org/article/3c1ae6b37bd74dfabd7cc3dc00b32604 |
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