Interaction of electromagnetic radiation with the metal fractal clusters. Part 1

Cover Page

Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription or Fee Access

Abstract

This paper provides the results of studies on the influence of the aluminum nanoisland dimensions with a length l during the fractal cluster formation on the polymer threads using the carbon benzene ring fibers on the conditions for the occurrence of “highly conductive off-surface state” during breakdown with an electric field strength of 1.6 kV/cm. The layer thickness was calculated in the case of the skin-effect in polymer threads with the metal fractal clusters for electromagnetic radiation with a wavelength λ and fulfillment of condition l << λ.

Full Text

Restricted Access

About the authors

Petr P. Maltsev

Inter-agency Center of Analytical Studies of the RAS

Author for correspondence.
Email: p.p.maltsev@mail.ru

Doctor of Technical Sciences, Professor, Chief Researcher

Russian Federation, Moscow

References

  1. P. P. Maltsev. Pulsed Optical and X-ray Radiation of Fractals: Review of Hypotheses. Part II. Micro-Breakdown of Fractals made of Metamaterials. Photonics Russia. 2024;18(7):522–534. doi: 10.22184/1993-7296.FRos.2024.18.7.522.534 П. П. Мальцев. Импульсные оптические и рентгеноские излучения фракталов: обзор гипотез. Часть 2. Микропробой фракталов из метаматериалов. Фотоника. 2024;18(7):522–534.
  2. P. P. Maltsev, A. A. Ganzha, V. Yu. Pavlov, A. O. Mikhalev, A. I. Kozlitin, V. V. Saraikin. Low-Filed Electron Emission from Fractals on Metamaterials. Russian Microelectronics. 2024. 53(5): 483–491.
  3. P. P. Maltsev, A. A. Ganzha, V. Yu. Pavlov, A. O. Mikhalev, A. I. Kozlitin. Formation of Polymer Threads with a Nanosized Aluminum Topology. Russian Microelectronics. 2023; 52(4):312–316.
  4. P. P. Maltsev, A. A. Ganzha, V. Yu. Pavlov, A. O. Mikhalev, and A. I. Kozlitin. Formation of Polymer Threads with Nanoscale Aluminum Formations. Nanobiotechnology Reports. 2022; 17(7): S15–S17.
  5. Fizicheskie velichiny: Spravochnik / [A. P. Babichev i dr.]; Pod red. I. S. Grigor’eva, E. Z. Mejlihova. Moskva: Energoatomizdat, 1991. 1231p. Физические величины: Справочник / [А. П. Бабичев и др.]; Под ред. И. С. Григорьева, Е. З. Мейлихова. Москва: Энергоатомиздат, 1991. 1231p.
  6. P. P. Mal’cev, A. A. Ganzha, V. Yu. Pavlov, A. O. Mihalev, A. I. Kozlitin, V. V. Sarajkin. Ocenka znachenij radial’noj plazmennoj chastoty dlya polimernoj niti s nanoostrovkami alyuminiya. Nano- i mikrosistemnaya tekhnika. 2024; 26(1): 25–32. П. П. Мальцев, А. А. Ганжа, В. Ю. Павлов, А. О. Михалев, А. И. Козлитин, В. В. Сарайкин. Оценка значений радиальной плазменной частоты для полимерной нити с наноостровками алюминия. Нано- и микросистемная техника. 2024; 26(1): 25–32.
  7. P. P. Mal’cev, A. A. Ganzha, V. Yu. Pavlov, A. O. Mihalev, A. I. Kozlitin, V. V. Sarajkin. Vozmozhnost’ predstavleniya metasolenoida, kak polimernoj niti s neregulyarnymi cepochkami nanoostrovkov alyuminiya. Nano- i mikrosistemnaya tekhnika. 2024; 26(2): 81–89. П. П. Мальцев, А. А. Ганжа, В. Ю. Павлов, А. О. Михалев, А. И. Козлитин, В. В. Сарайкин. Возможность представления метасоленоида, как полимерной нити с нерегулярными цепочками наноостровков алюминия. Нано- и микросистемная техника. 2024; 26(2): 81–89.
  8. V. G. Veselago. Elektrodinamika veshchestv s odnovremenno otricatel’nymi znacheniyami ε i µ. Uspekhi fizicheskih nauk. 1967; 92(7): 517–526. В. Г. Веселаго. Электродинамика веществ с одновременно отрицательными значениями ε и µ. Успехи физических наук. 1967; 92(7): 517–526.
  9. A. I. Malkin. Zakonomernosti i mekhanizmy effekta Rebindera. Kolloidnyj zhurnal. 2012; 74:239–254. А. И. Малкин. Закономерности и механизмы эффекта Ребиндера. Коллоидный журнал. 2012; 74:239–254.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download
2. Fig. 1. Fragments of a polymer thread with aluminum nanoislands (white) with various magnifications: a) 1 μm; b) 10 μm; c) 100 μm; d) 1000 μm.

Download (784KB)
Indexing metadata
3. Fig. 2. Schematic layout of a sample with an array of aluminum nanoislands on a sapphire substrate (a) and a crystal (b)

Download (217KB)
Indexing metadata
4. Fig. 3. Photograph of a sample crystal on a sapphire substrate with titanium/gold (Ti / Au) bonding sites

Download (423KB)
Indexing metadata
5. Fig. 4. SEM image of the arrays of formed aluminum nanoislands (dark dots - circles)

Download (615KB)
Indexing metadata
6. Fig. 5. Features of the Rusar polymer thread: a) aramid development formula; b) formula of the benzene ring C6H6; c) structure of the benzene ring

Download (128KB)
Indexing metadata
7. Fig. 6. Image of the thread surface with the aluminum islands and the results of X-ray spectral analysis

Download (565KB)
Indexing metadata
8. Fig. 7. Example of wetting a solid surface with liquid

Download (48KB)
Indexing metadata
9. Fig. 8. Skin effect: a) skin effect mechanism; b) distribution of current density in a cylindrical conductor in the cross-section

Download (180KB)
Indexing metadata
10. Fig. 9. Dependence of the current density distribution for a cylindrical conductor: a) by depth; b) by frequency

Download (376KB)
Indexing metadata
11. Fig. 10. Photographs of the surface of polymer threads with the aluminum nanoislands: prior to the thread breakdown (on the left) and after the thread breakdown (on the right)

Download (881KB)
Indexing metadata

Copyright (c) 2025 Maltsev P.P.