Efficient non-resonant absorption of electromagnetic radiation in thin cylindrical targets: experimental evidence

Akhmeteli, Andrey; Kokodiy, N. G.; Safronov, Boris V.; Balkashin, V.P.; Priz, I. A.; Tarasevitch, A.

doi:10.1117/12.2053482

Cited by 9 publications

(6 citation statements)

References 8 publications

(32 reference statements)

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“…Calculations by this formula using expression (4) for the temperature distribution along the fiber give such a resistance value of the "hot" fiber: R = 31125 Ohm.…”

Section: Mathematical Modeling Of Fiber Heating By Radiationmentioning

confidence: 99%

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Thermal processes in thin wires by interaction with microwave radiation

Kokodii

Shaposhnikova

Pogorelov

2018

TSE

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“…Calculations by this formula using expression (4) for the temperature distribution along the fiber give such a resistance value of the "hot" fiber: R = 31125 Ohm.…”

Section: Mathematical Modeling Of Fiber Heating By Radiationmentioning

confidence: 99%

“…It was shown in works [1][2][3][4] that electromagnetic radiation in the microwave range can be strongly absorbed in metallic wires or other thin conducting fibers, whose diameter is much smaller than the wavelength.…”

Section: Introductionmentioning

confidence: 99%

Thermal processes in thin wires by interaction with microwave radiation

Kokodii

Shaposhnikova

Pogorelov

2018

TSE

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“…In papers (Akhmeteli et al 2013;Akhmeteli et al 2015;Kokodii et al 2017) described are cases when the wire is located along the radiation beam axis: the effect of strong absorption of radiation by the wire is also observed. The paper (Shi He et al 2011) describes an experiment, where the wire is located in the waveguide.…”

Section: Introductionmentioning

confidence: 99%

Interaction between thin conductive fibers and microwave radiation

et al. 2023

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We study the effect of an anomalously strong interaction of electromagnetic radiation with very thin conducting fibers. Metal, semiconductor or graphite fibers, which diameter is several hundred times smaller than the radiation wavelength, strongly absorb and scatter the electromagnetic waves, which electric vector is parallel to the fiber axis. The efficiency factors of attenuation, absorption, scattering and pressure of radiation for fibers with a diameter of several micrometers in the centimeter and millimeter ranges reach several thousand. We determine the nature of this effect. It occurs when the transverse dimension of the fiber is comparable to the thickness of the skin layer. Then the electric field of the incident wave fills the entire volume of the fiber, and the absorbed power is the highest. We also provide a theoretical analysis of such effect, determine conditions for its existence: the ratio between the radiation wavelength and the diameter of the fiber, the value of conductivity. We also provide an experimental study of the effect, when unfocused radiation beam with a wavelength of 8 mm at the output of waveguide with a 7.2 3.4  mm cross section transfers more than 10% of the beam power to a 12 μm diameter graphite fiber. We make an analysis of the mathematical model of the process of heating of graphite fiber by a microwave radiation beam. Then we solve a heat conduction equation and find the temperature distribution along the fiber, which is in agreement with the measured one.

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Section: Introductionmentioning

confidence: 99%