This article is cited in 3 papers

Calculation of the visible radiation fraction in the spectrum of a pulse-periodic discharge in cesium

F. G. Baksht^a, V. F. Lapshin<sup>ab

a</sup> Ioffe Institute, St. Petersburg
^b Emperor Alexander I St. Petersburg State Transport University

Abstract: The radiation spectrum of a pulse-periodic high-pressure discharge in cesium vapors is calculated based on the two-temperature multifluid model. It is shown that the visible radiation of the discharge has a continuous spectrum in a wide range of parameters. The fraction $\alpha_{vis}$ of the visible radiation in the outcoming spectrum in all the studied regimes of discharge combustion is a considerable value and varies within a range of from 33 to 58%. The maximum values of $\alpha_{vis}$ for the discharge considerably exceeds the maximum value $\alpha^B_{vis}$ = 48% for the radiation spectrum of the black body. The maximum values of $\alpha_{vis}$ are achieved in charge combustion regimes for which the pressure in the end of the pulse reaches 400–800 Torr, and the radial optical thickness of the plasma column in the visible part of the spectrum takes values in a range of 0.4–0.8.

Received: 03.01.2015

 English version: Technical Physics Letters, 2015, 41:7, 620–623

Bibliographic databases:

•