Plasma Investigations

Mechanism underlying laser-induced broadband radiation of polycrystalline graphite

S.Sh. Rekhviashvili^a, D. S. Gaev^b, Z. Ch. Margushev<sup>c

a</sup> Institute of Applied Mathematics and Automation, Nalchik
^b Kabardino-Balkar State University, Nal'chik
^c Institute of Computer Science and Problems of Regional Management – branch of Federal public budgetary scientific establishment "Federal scientific center "Kabardin-Balkar Scientific Center of the Russian Academy of Sciences", Nal'chik

Abstract: Under the action of IR laser radiation on polycrystalline graphite, secondary broadband radiation appears in the visible region of the spectrum. In order to clarify the nature of this phenomenon, radiation with resistive heating and arc discharge was compared. It is concluded that broadband emission of polycrystalline graphite can be attributed to anti-Stokes luminescence, which occurs due to forced Raman scattering of photons at high temperatures. A simulation model is proposed and implemented which can qualitatively reproduce the radiation spectrum by sequential inclusion of second-order aperiodic links.

UDC: 544.032.65, 53.03, 53.043

Received: 02.02.2023
Revised: 29.06.2023
Accepted: 03.10.2023

DOI: 10.31857/S0040364424010036

 English version: High Temperature, 2024, 62:1, 16–20