A.I. Kormilitsyn, I. V. S. Diyankov, V.B. Bratchikov
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引用次数: 0
摘要
本文提出了在电线爆炸过程中产生的紫外线辐射作用下,介质表面能量可控换相的技术。通过改变表面辐照强度和改变爆丝数来控制放电的换相特性。该技术与其他因素相结合,用于直接作用加速器IGUR-3加速管电压(电流)尾迹的形成。爆炸的电线被放置在7米长的聚乙烯管中。随着电场强度沿管道长度、电压脉冲上升的陡峭度和紫外线辐射强度的同时变化,脉冲尾缘的持续时间可以从20 ns到250 ns设置。管道表面的排放速度与管道长度无关,分别为3/spl / middot/10/sub / 8/…7/ m/s /s
The paper proposes technique for controlled commutation of energy on a dielectric surface when affected by ultraviolet radiation, formed during electric explosion of wires. Commutation characteristic of discharge can be controlled by changing intensity of surface irradiation and number of commutation channels by changing number of exploded wires. This technique, combined with other factors, is used for formation of trailing of voltage (current) at accelerating tube of direct action accelerator IGUR-3. Exploded wires are placed inside polyethylene pipes 7 m long. With simultaneous changes of electrical field strength along the length of the pipe, steepness of rise of voltage pulse, and intensity of ultraviolet radiation, duration of the trailing edge the pulse can be set from 20 ns up to 250 ns. Speed of discharge on the pipe's surface does not depend upon its length and is, respectively, 3/spl middot/10/sub 8/...3/spl middot/10/sup 7/ m/s.
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