S. Yu. Pirogov, D. G. Belyanin, A. S. Yur'ev, V. V. Tipaev, A. V. Filatov, “Numerical investigation of the propagation of light-induced detonation waves during the absorption of high-power laser radiation in air at elevated density”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 2010, Volume 36, Issue 23,Pages <nobr>62

This article is cited in 6 papers

Numerical investigation of the propagation of light-induced detonation waves during the absorption of high-power laser radiation in air at elevated density

S. Yu. Pirogov, D. G. Belyanin, A. S. Yur'ev, V. V. Tipaev, A. V. Filatov

Mozhaiskiy Space Military Academy, St. Petersburg

Abstract: Spatiotemporal gasdynamic plasma structures formed in quiescent air of elevated density by high-power unfocused laser radiation absorbed in the light-induced detonation (LID) wave regime have been numerically studied using a model of inviscid, equilibrium emitting air. Laser radiation intensity and air density serve as parameters of the model. Dependences of the velocity of LID wave on the laser radiation intensity at elevated air densities are presented.

Received: 11.05.2010