An Ultra-Wideband Band Pass Filter using Metal Insulator Metal Waveguide for Nanoscale Applications

Bitra, Surendra Kumar; Miriyala, Suneel

doi:10.48084/etasr.4194

Cited by 4 publications

(3 citation statements)

References 21 publications

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“…The CST Studio Suite [41] is used to simulate and analyze antenna parameters [42][43][44]. CST and all similar commercial software provide also a monitor function for computing the Specific Absorption Rate (SAR) of energy deposition in the tissues.…”

Section: Limitations Of Present Radiofrequency Softwarementioning

confidence: 99%

Magnetite Particle Presence in the Human Brain: A Computational Dosimetric Study to Emphasize the Need of a Complete Assessment of the Electromagnetic Power Deposition at 3.5 GHz

Vatamanu

Miclăuș

2021

Eng. Technol. Appl. Sci. Res.

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The growing evidence of increased magnetite nanoparticles (both endo- and exo-genic) in the human brain raises the importance of assessing the entire power deposition when electromagnetic waves at GHz frequencies propagate in such tissues. This frequency range corresponds to many popular portable communication devices that emit radiation close to a human's head. At these frequencies, the current dosimetric numerical codes can not accurately compute the magnetic losses part. This is due to the lack of an implemented computational algorithm based on solving the coupled Maxwell and Landau-Lifshitz-Gilbert equations, in the case of magneto-dielectrics, considering eddy currents losses and specific properties of magnetic sub-millimetric particles. This paper focuses on analyzing the limits and the inconsistencies when using commercial dosimetric numerical software to analyze the total absorbed power in brain models having ferrimagnetic content and being exposed to 3.5GHz electromagnetic waves. Magnetic losses computed using Polder’s permeability tensor as constitutive relation lead to unreliable results. However, using such software can provide a preliminary view of the electromagnetic impact of ultra- and super-high frequencies on magnetic-dielectric tissues.

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Section: Limitations Of Present Radiofrequency Softwarementioning

confidence: 99%

Magnetite Particle Presence in the Human Brain: A Computational Dosimetric Study to Emphasize the Need of a Complete Assessment of the Electromagnetic Power Deposition at 3.5 GHz

Vatamanu

Miclăuș

2021

Eng. Technol. Appl. Sci. Res.

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“…Wang et al used triangular ring resonators [30], Liu et al utilized a square resonator [31], and rectangle resonators [32], and Luo et al used rectangle-disk couple resonators [33] for band-stop filtering. Shi et al used disk resonators [34], Cui et al utilized concave and triangular resonators [35], Bitra et al proposed a T-stub loaded square ring resonator [36], and Khani et al used hexagonal resonator [37] for band-pass filtering.…”

Section: Introductionmentioning

confidence: 99%

Multiple ultra-narrow band-stop filters based on MIM plasmonic waveguide with nanoring cavities

Korkmaz

2024

Phys. Scr.

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In this work, multiple ultra-narrow band-stop filters based on metal–insulator–metal (MIM) plasmonic waveguide filters with high efficiency are designed and analyzed numerically. The relationship between incident radiation and transmission spectra is investigated between 0.45 μm and 1.5 μm in the electromagnetic spectrum by finite-difference time-domain (FDTD) method. The designed structures have a bus waveguide coupled with nanoring cavity resonators of different sizes. Minimum transmission is 1.3% at 622 nm. The full width at half maximum (FWHM) is 8.64 nm and the quality factor is obtained as 72.33 in this wavelength. The highest quality factor is 185.48 and the lowest FWHM is 4.2 nm at 779 nm. The designed waveguide-based filters can be used for integrated optical devices from visible to near-infrared regimes.

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“…Analog filters use analog electronic circuits made up of components such as resistors, capacitors, and optical amplifiers to produce the required filtering effect. A digital filter uses a digital processor to perform numerical calculations on the sampled values of the signal [1][2][3][4][5][6][7]. The processor can be a generalpurpose computer such as a PC or a dedicated DSP (Digital Signal Processor) chip.…”

Section: Introductionmentioning

confidence: 99%

The Application of LQG Balanced Truncation Algorithm to the Digital Filter Design Problem

Bui¹

2022

Eng. Technol. Appl. Sci. Res.

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This paper presents a method for using a model reduction algorithm to design low-order digital filters. Designing an IIR digital filter that meets the specifications often leads to a high-order digital filter. To reduce the computation time and increase the response rate of the filter, we need to reduce the order of the high-order digital filter. Applying the LQG balanced truncation algorithm to reduce the demand for high-order digital filters shows that low-order filters can completely replace high-order digital filters. The simulation results show that the use of the LQG balanced truncation algorithm in order to reduce the filter order is correct and efficient.

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An Ultra-Wideband Band Pass Filter using Metal Insulator Metal Waveguide for Nanoscale Applications

Cited by 4 publications

References 21 publications

Magnetite Particle Presence in the Human Brain: A Computational Dosimetric Study to Emphasize the Need of a Complete Assessment of the Electromagnetic Power Deposition at 3.5 GHz

Magnetite Particle Presence in the Human Brain: A Computational Dosimetric Study to Emphasize the Need of a Complete Assessment of the Electromagnetic Power Deposition at 3.5 GHz

Multiple ultra-narrow band-stop filters based on MIM plasmonic waveguide with nanoring cavities

The Application of LQG Balanced Truncation Algorithm to the Digital Filter Design Problem

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