The effect of an anomalously large absorption of electromagnetic radiation in very thin conducting fibers was investigated. Efficiency factor of absorption can reach several hundred for a fiber with a diameter of several micrometers in the centimeter wavelength range. The effect can be used to transfer the energy of electromagnetic radiation to thin fibers without focusing radiation.

Efficiency factor of absorption; thin fibers; microwave radiation; heating

1. Kuz’michev VM, Kokodiy NG, Safronov BV, et al. Values of the absorption efficiency factor of a thin metal cylinder in the microwave band. Journal of Communication Technology and Electronics 2003; 48(11): 1240-1242.

2. Kokodiy NG. Microwave radiation absorption in an ultrathin double-layer cylinder. Journal of Communication Technology and Electronics 2006; 51(2): 175-178.

3. Shi He, Shulga SN, Kokodity NG, et al. Interaction of electromagnetic waves in a waveguide with very thin wires. Journal of Communication Technology and Electronics 2011; 56(10): 1193-1196.

4. Akhmeteli A, Kokodiy NG, Safronov BV, et al. Efficient non-resonant absorption in thin cylindrical targets: Experimental evidence for longitudinal geometry. ArXiv: 1208.0066v3 [physics:plasm-ph] Aug 2013; 6: 1-15.

5. Kokodii NG, Kaydash MV, Timaniuk VA. Interaction of electromagnetic radiation with a thin metal wire in the case of a glancing incident wave. Journal of Communication Technology and Electronics 2017; 62(3): 205-211.

6. Wait JR. Scattering of a plane wave from a circular dielectric cylinder an oblique incidence. Canadian Journal of Physics 1955; 33(5): 189-195.

7. Lind AC, Greenberg JM. Electromagnetic scattering by obliquely oriented cylinders. Journal of Applied Physics 1966; 37(8): 3195-3203.

8. Bosworth RCL. Heat transfer phenomena. The flow of heat in physical systems. – John Wiley and Sons NY 1952.