Magneto-optical surface plasmon resonances on perpendicular magnetic thin films consisting of CoPt/ZnO/Ag stacked nanolayers

Yamane, Haruki

doi:10.35848/1347-4065/abe7fd

Cited by 10 publications

(7 citation statements)

References 38 publications

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“…[26][27][28][29][30] The ultrahigh response is attributed to the strong local electric field on the surface of the Au/Co/Au film under the surface plasmon resonance (Figure 5). [31,32] The full width at half maxima (FWHM), a pivotal point to evaluate the sensing characteristic of the SPR sensor, of Au/Co/Au magnetic sensor with different thicknesses of Co layer (0, 6, 9, 12 nm) is 0, 8.8, 11.9, 12.4, and 12.6, respectively, which rises with the thickness of Co increase, due to the ohmic loss of Co. The Au/Co/Au sandwich structure, where the top and bottom Au layers are equivalent to a resonant cavity, can tremendously reduce Co's ohmic loss and improve sensitivity and quality factors.…”

Section: Resultsmentioning

confidence: 99%

“…However, the high cost of the detection system and complex light path usually hinder practical application. [16] The optic fiber based on the SPR covered with magneto-fluid (a colloidal liquid consisting of magnetic solid particles, active agent, and medium) is sensitive to the temperature and magnetic field also, which realized two-parameter measurements simultaneously, although the magneto-fluid is unstable, restrained further development. [17] Previous reports on the detection of magnetic fields have suffered from issues such as sensitivity, response time, stability, and applicability.In this work, we demonstrate the modulation of magnetic fields on the interaction between light and matter and prepare an Au/Co/Au magneto-optic surface plasmon resonance (MOSPR) sensor by electron beam vapor deposition.…”

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confidence: 99%

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Magnetic Field Sensor Based on Magnetic Optical Surface Plasmon Resonance

Liu

Wang

Zhang

2023

Advanced Photonics Research

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Surface plasmon resonance with high sensitivity is widely used in molecular dynamics detection. Herein, a magneto‐optic surface plasmon resonance (MOSPR) sensor based on Au/Co/Au thin film for detecting magnetic fields is developed. The strong coupling between the magneto‐optical waveguide mode and the surface plasmon resonance mode is analyzed and the linear relationship between the reflectivity of the MOSPR sensor and the magnetic field is established. The response, response–recovery time, and dispersion relationship for different magnetic fields are also numerically simulated. Additionally, experimental data on the MOSPR sensor's response to magnetic fields at room temperature (25 °C) are obtained. During the experiment, a differential signal in the light path is applied to reduce the noise generated by the environment. The results demonstrate that the MOSPR sensor exhibits high response, ultrafast response time, and long‐term stability. The study provides a promising approach for detecting magnetic fields with high sensitivity and accuracy.

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Section: Resultsmentioning

confidence: 99%

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confidence: 99%

Magnetic Field Sensor Based on Magnetic Optical Surface Plasmon Resonance

Liu

Wang

Zhang

2023

Advanced Photonics Research

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“…Recently, we experimentally demonstrated the reversal of MO polarity and a large θ K of ± 21° in a polar MO‒SPR element comprising CoPt/Ag bilayers 28 . However, the upper limit of Kerr rotation (± 90°) is only possible in the Al 2 O 3 /CoPt/AZO trilayers.…”

Section: Resultsmentioning

confidence: 99%

“…Several theoretical and experimental studies have also shown that the SPRs significantly enhance polar Kerr activities 1 , 2 , 27 . We recently reported that SPR elements comprising perpendicular magnetic Co 80 Pt 20 /ZnO/Ag trilayers produce a giant polarization angle with narrow linewidth under polar Kerr excitation 28 . A new type of chemical sensor for detecting hydrogen gas was also demonstrated in the CoPt trilayers with an ideal square-shaped magnetic hysteresis loop.…”

Section: Introductionmentioning

confidence: 99%

Polarization transformation and destructive interference on subwavelength magnetic domains in magneto-plasmonic systems

Yamane

Yanase

Hasegawa

et al. 2022

Sci Rep

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We demonstrate magneto-optical (MO) polarization transformation due to surface plasmons in CoPt perpendicular magnetic films in the polar Kerr geometry. An extraordinary Kerr rotation angle (θK = ± 88.9°) that almost reaches the upper limit of polarization is produced in the attenuated total reflection (Kretschmann) configuration. P-polarized incident radiation is almost transformed upon reflection to s-polarized radiation, which may be out of phase depending on whether the magnetization of CoPt is up or down. Moreover, the reflected intensity may be drastically modulated by applying an external magnetic field. The reflectivity goes almost to zero in the demagnetized state and increases with increasing external magnetic field. This drastic optical response is attributed to the MO destructive interference produced by the subwavelength magnetic domain structure.

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“…It is worth mentioning that magnetoplasmonic sensors are being actively used for the detection of gases 194 and infectious diseases. 195 Additional areas where magnetoplasmonic sensors may find applications include material characterization.…”

Section: Journal Of Applied Physicsmentioning

confidence: 99%

Magnetophotonics for sensing and magnetometry toward industrial applications

Rizal¹,

Manera

Ignatyeva

et al. 2021

Journal of Applied Physics

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Magnetic nanostructures sustaining different types of optical modes have been used for magnetometry and label-free ultrasensitive refractive index probing, where the main challenge is the realization of compact devices that are able to transfer this technology from research laboratories to smart industry. This Perspective discusses the state-of-the-art and emerging trends in realizing innovative sensors containing new architectures and materials exploiting the unique ability to actively manipulate their optical properties using an externally applied magnetic field. In addition to the well-established use of propagating and localized plasmonic fields, in the so-called magnetoplasmonics, we identified a new potential of the all-dielectric platforms for sensing to overcome losses inherent to metallic components. In describing recent advances, emphasis is placed on several feasible industrial applications, trying to give our vision on the future of this promising field of research merging optics, magnetism, and nanotechnology.

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Magneto-optical surface plasmon resonances on perpendicular magnetic thin films consisting of CoPt/ZnO/Ag stacked nanolayers

Cited by 10 publications

References 38 publications

Magnetic Field Sensor Based on Magnetic Optical Surface Plasmon Resonance

Magnetic Field Sensor Based on Magnetic Optical Surface Plasmon Resonance

Polarization transformation and destructive interference on subwavelength magnetic domains in magneto-plasmonic systems

Magnetophotonics for sensing and magnetometry toward industrial applications

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