This article is cited in 3 papers

Effects of laser radiation on matter. Laser plasma

Temporal and thermodynamic characteristics of plasma formation

M. V. Ignatavičius, É. Kazakyavichyus, G. Orshevski, V. Danyunas


Abstract: An investigation was made of plasma formation accompanying the interaction with aluminum, iron, and VK-6 alloy targets of nanosecond radiation from a YAG:Nd³⁺ laser (E_max = 50 mJ, τ = 3–8 ns). The duration of the plasma formation process depended weakly on the laser radiation parameters [the power density was varied in the range 1–3 GW/cm², the pulse rise time in the range 2–8 ns, or the rate of rise of the power density in the range (1–8) X 10⁸ W · cm ^{– 2} · ns ^–1]. A study was made of the establishment of a local thermodynamic equilibrium in a plasma jet excited by radiation from nanosecond and picosecond (E = 30 mJ, τ = 40 ps) lasers. The maximum of the luminescence from an aluminum plasma excited by picosecond laser radiation was found to correspond to a local thermodynamic equilibrium. A local thermodynamic equilibrium could be absent in the case of excitation by nanosecond laser radiation.

UDC: 621.373.826:533.9

PACS: 42.55.Rz, 42.65.Re, 42.60.Gd, 52.50.Jm, 05.70.-a

Received: 19.04.1991

 English version: Soviet Journal of Quantum Electronics, 1991, 21:11, 1210–1213

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